Patents by Inventor DONALD L. TONN
DONALD L. TONN 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).
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Patent number: 11969201Abstract: A controller for an electrosurgical generator includes an RF inverter, a signal processor, a software compensator, a hardware compensator, and an RF inverter controller. The RF inverter generates an electrosurgical waveform and the signal processor outputs a measured value of at least one of a voltage, a current, or power of the electrosurgical waveform. The software compensator generates a desired value for at least one of the voltage, the current, or the power of the electrosurgical waveform, and the hardware compensator generates a phase shift based on the measured value and the desired value. The RF inverter controller generates a pulse-width modulation (PWM) signal based on the phase shift to control the RF inverter.Type: GrantFiled: August 17, 2021Date of Patent: April 30, 2024Assignee: Covidien LPInventors: Robert H. Wham, Edward L. Brannan, William D. Faulkner, Mark A. Johnston, Aaron G. Mattmiller, Donald L. Tonn
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Publication number: 20240032987Abstract: A method of treating tissue includes clamping tissue between an ultrasonic blade and a jaw member and simultaneously: transmitting ultrasonic energy to the ultrasonic blade to vibrate the ultrasonic blade at a first blade velocity thereby heating the clamped tissue; and supplying electrosurgical energy, at a constant voltage, to the jaw member and the ultrasonic blade at different potentials such that the electrosurgical energy is conducted therebetween and through the clamped tissue to heat the clamped tissue. An impedance of the clamped tissue is monitored and the simultaneous transmission of ultrasonic energy and supply of electrosurgical energy is terminated and/or a notification is output once the clamped tissue is sealed, as indicated by the impedance of the clamped tissue being equal to or greater than a threshold impedance. Surgical instruments and end effectors thereof for treating tissue in this manner are also provided.Type: ApplicationFiled: December 2, 2021Publication date: February 1, 2024Inventors: Michael B. Lyons, James E. Dunning, Kristen P. Bradley, David J. Van Tol, Christopher T. Tschudy, Keith W. Malang, Donald L. Tonn, Mark A. Johnston, James R. Fagan
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Publication number: 20230380882Abstract: The present disclosure includes an electrosurgical generator that controls treatment energy to be provided in a coagulation mode, where the treatment energy has an adjustable voltage ramp rate which can be set to a ramp rate in a range of voltage ramp rates. The generator receives signals from an instrument over time relating to load impedance. When the load impedance is above a threshold, the generator sets the adjustable voltage ramp rate to a ramp rate in the range of voltage ramp rates, and decreases, at the adjustable voltage ramp rate, a voltage of the treatment energy. When the load impedance is below the threshold, the generator sets the adjustable voltage ramp rate to a ramp rate in the range of voltage ramp rates, and increases, at the adjustable voltage ramp rate, the voltage of the treatment energy.Type: ApplicationFiled: August 10, 2023Publication date: November 30, 2023Inventors: Donald L. Tonn, James E. Dunning, William D. Faulkner, Jennifer R. McHenry, Devon E. Scott-Drechsel, Eric M. Westra
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Patent number: 11744631Abstract: The present disclosure includes an electrosurgical generator that controls treatment energy to be provided in a coagulation mode, where the treatment energy has an adjustable voltage ramp rate which can be set to a ramp rate in a range of voltage ramp rates. The generator receives signals from an instrument over time relating to load impedance. When the load impedance is above a threshold, the generator sets the adjustable voltage ramp rate to a ramp rate in the range of voltage ramp rates, and decreases, at the adjustable voltage ramp rate, a voltage of the treatment energy. When the load impedance is below the threshold, the generator sets the adjustable voltage ramp rate to a ramp rate in the range of voltage ramp rates, and increases, at the adjustable voltage ramp rate, the voltage of the treatment energy.Type: GrantFiled: September 5, 2018Date of Patent: September 5, 2023Assignee: COVIDIEN LPInventors: Donald L. Tonn, James E. Dunning, William D. Faulkner, Jennifer R. McHenry, Devon E. Scott-Drechsel, Eric M. Westra
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Patent number: 11683105Abstract: Methods and system are provided to mitigate RF interferences during operation of an electrosurgical system. An electrosurgical system configured to output therapeutic RF energy may refrain from outputting RF energy in order to measure an RF interference for a group of candidate frequencies, and to select a frequency from the group of candidate frequencies for which the measured RF interference is below a threshold value, and to produce a feedback signal (a control signal) at the selected frequency to control operation of the electrosurgical system. During operation of the electrosurgical system the feedback signal may be filtered by a BPF whose fundamental frequency is set to the selected frequency, to thus obtain an interference free feedback signal and, consequently, a reliable control of the electrosurgical system.Type: GrantFiled: September 3, 2020Date of Patent: June 20, 2023Assignee: Covidien LPInventors: Donald W. Heckel, Fred B. Pelton, William D. Faulkner, Donald L. Tonn
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Patent number: 11534226Abstract: An electrosurgical generator includes a processor and a memory storing instructions executable by the processor. The instructions when executed, cause the generator to provide an indicated treatment energy to the instrument, where the indicated treatment energy is set by a user and having a corresponding current limit, receive signals from the instrument over time relating to a load impedance between the active electrode and the return electrode of the instrument, determine based on the signals that the active electrode and the return electrode are currently shorted together, and prior to the short, the instrument was grasping tissue between the active electrode and the return electrode, and based on the determination, reduce a current limit of treatment energy being provided to the instrument to below the corresponding current limit.Type: GrantFiled: September 5, 2018Date of Patent: December 27, 2022Assignee: Covidien LPInventors: Donald L. Tonn, James E. Dunning, William D. Faulkner, Jennifer R. McHenry, Devon E. Scott-Drechsel, Eric M. Westra
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Patent number: 11272975Abstract: The disclosed systems and methods relate to controlling the application of electrosurgical energy by an electrosurgical instrument. An electrosurgical generator in accordance with the present disclosure includes a processor and a memory storing instructions executable by the processor. The instructions when executed, cause the generator to receive signals from the instrument over time relating to whether tissue is grasped by the instrument, receive an indication to provide an indicated treatment power to the instrument where the indicated treatment power is set by a user, determine based on the signals that tissue is currently grasped and that, for at least a predetermined length of time prior, no tissue had been grasped, and based on the determination, provide a treatment power surge to the instrument for a surge time period. After the surge time period, the generator provides the indicated treatment power to the instrument.Type: GrantFiled: September 5, 2018Date of Patent: March 15, 2022Assignee: COVIDIEN LPInventors: Donald L. Tonn, James E. Dunning, William D. Faulkner, Jennifer R. McHenry, Devon E. Scott-Drechsel, Eric M. Westra
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Publication number: 20210369324Abstract: A controller for an electrosurgical generator includes an RF inverter, a signal processor, a software compensator, a hardware compensator, and an RF inverter controller. The RF inverter generates an electrosurgical waveform and the signal processor outputs a measured value of at least one of a voltage, a current, or power of the electrosurgical waveform. The software compensator generates a desired value for at least one of the voltage, the current, or the power of the electrosurgical waveform, and the hardware compensator generates a phase shift based on the measured value and the desired value. The RF inverter controller generates a pulse-width modulation (PWM) signal based on the phase shift to control the RF inverter.Type: ApplicationFiled: August 17, 2021Publication date: December 2, 2021Inventors: Robert H. Wham, Edward L. Brannan, William D. Faulkner, Mark A. Johnston, Aaron G. Mattmiller, Donald L. Tonn
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Publication number: 20210361340Abstract: An electrosurgical generator includes a first radio frequency source having: a first power supply configured to output a first direct current waveform; a first radio frequency inverter coupled to the first power supply and configured to generate a monopolar radio frequency waveform from the first direct current waveform; and a first controller configured to control the first radio frequency inverter to output the monopolar radio frequency waveform. The generator also includes a second radio frequency source having: a second power supply configured to output a second direct current waveform; a second radio frequency inverter coupled to the second power supply and configured to generate a bipolar radio frequency waveform simultaneously as the monopolar radio frequency waveform; and a second controller configured to control the second radio frequency inverter to output the bipolar radio frequency waveform.Type: ApplicationFiled: May 12, 2021Publication date: November 25, 2021Inventors: Donald W. Heckel, Donald L. Tonn
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Publication number: 20210361337Abstract: An electrosurgical generator includes a first radio frequency source having a first power supply configured to output a first direct current waveform; a first radio frequency inverter coupled to the first power supply and configured to generate a first interrogation waveform and a first radio frequency waveform from the first direct current waveform; and a first controller configured to control the first radio frequency inverter to output the first radio frequency waveform based on a response of the first interrogation waveform.Type: ApplicationFiled: May 12, 2021Publication date: November 25, 2021Inventors: Donald W. Heckel, Donald L. Tonn, William D. Faulkner
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Publication number: 20210361339Abstract: An electrosurgical generator includes a first radio frequency source having a first power supply configured to output a first direct current waveform; a first radio frequency inverter coupled to the first power supply and configured to generate a first radio frequency waveform from the first direct current waveform; and a first controller configured to control the first radio frequency inverter. The electrosurgical generator also includes a second radio frequency source having: a second power supply configured to output a second direct current waveform; a second radio frequency inverter coupled to the second power supply and configured to generate a second radio frequency waveform simultaneously as the first radio frequency waveform; and a second controller configured to control the second radio frequency inverter.Type: ApplicationFiled: May 12, 2021Publication date: November 25, 2021Inventors: Donald W. Heckel, Donald L. Tonn
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Publication number: 20210322085Abstract: The present disclosure relates to electrosurgical systems and methods for controlling electrical treatment energy in connection with electrical arcs. A method in accordance with the present disclosure includes providing electrical treatment energy to an instrument based on an indicated electrical energy level, accessing voltage signal values over time relating to voltage of the electrical treatment energy and/or current signal values over time relating to current of the electrical treatment energy, determining whether an arc generated by the instrument is an arc to be maintained or an arc to be extinguished based on a threshold value and at least one of the voltage signal values or the current signal values, and controlling the electrical treatment energy based on determining that the arc is an arc to be extinguished.Type: ApplicationFiled: June 28, 2021Publication date: October 21, 2021Inventors: Robert H. Wham, William D. Faulkner, Donald L. Tonn
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Publication number: 20210259759Abstract: In accordance with aspects of the present disclosure, an adaptor assembly includes a plug, a selector assembly, and a connector. The plug is coupled to an electrosurgical generator and is configured to receive electrosurgical energy from the electrosurgical generator. The selector assembly includes a first position and a second position. The first position is configured to indicate a first setting of the electrosurgical generator. The second position is configured to indicate a second setting of the electrosurgical generator. The selector assembly, when actuated, indicates the selected position to the electrosurgical generator to initiate the corresponding setting. The connector is configured to couple to a surgical instrument and convey the electrosurgical energy to the surgical instrument. The electrosurgical energy, when based on the first setting, is different from the electrosurgical energy, when based on the second setting.Type: ApplicationFiled: February 19, 2021Publication date: August 26, 2021Inventors: Jennifer R. Mchenry, William D. Faulkner, James E. Dunning, Devon E. Scott-Drechsel, Eric M. Westra, Donald L. Tonn
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Patent number: 11090106Abstract: A controller for an electrosurgical generator includes an RF inverter, a signal processor, a software compensator, a hardware compensator, and an RF inverter controller. The RF inverter generates an electrosurgical waveform and the signal processor outputs a measured value of at least one of a voltage, a current, or power of the electrosurgical waveform. The software compensator generates a desired value for at least one of the voltage, the current, or the power of the electrosurgical waveform, and the hardware compensator generates a phase shift based on the measured value and the desired value. The RF inverter controller generates a pulse-width modulation (PWM) signal based on the phase shift to control the RF inverter.Type: GrantFiled: April 14, 2016Date of Patent: August 17, 2021Assignee: Covidien LPInventors: Robert H. Wham, Donald L. Tonn, Aaron Mattmiller, William D. Faulkner, Edward L. Brannan, Mark A. Johnston
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Patent number: 11045247Abstract: The present disclosure relates to electrosurgical systems and methods for controlling electrical treatment energy in connection with electrical arcs. A method in accordance with the present disclosure includes providing electrical treatment energy to an instrument based on an indicated electrical energy level, accessing voltage signal values over time relating to voltage of the electrical treatment energy and/or current signal values over time relating to current of the electrical treatment energy, determining whether an arc generated by the instrument is an arc to be maintained or an arc to be extinguished based on a threshold value and at least one of the voltage signal values or the current signal values, and controlling the electrical treatment energy based on determining that the arc is an arc to be extinguished.Type: GrantFiled: February 20, 2018Date of Patent: June 29, 2021Assignee: COVIDIEN LPInventors: Robert H. Wham, William D. Faulkner, Donald L. Tonn
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Publication number: 20200403713Abstract: Methods and system are provided to mitigate RF interferences during operation of an electrosurgical system. An electrosurgical system configured to output therapeutic RF energy may refrain from outputting RF energy in order to measure an RF interference for a group of candidate frequencies, and to select a frequency from the group of candidate frequencies for which the measured RF interference is below a threshold value, and to produce a feedback signal (a control signal) at the selected frequency to control operation of the electrosurgical system. During operation of the electrosurgical system the feedback signal may be filtered by a BPF whose fundamental frequency is set to the selected frequency, to thus obtain an interference free feedback signal and, consequently, a reliable control of the electrosurgical system.Type: ApplicationFiled: September 3, 2020Publication date: December 24, 2020Inventors: Donald W. Heckel, Fred B. Pelton, William D. Faulkner, Donald L. Tonn
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Patent number: 10771167Abstract: Methods and system are provided to mitigate RF interferences during operation of an electrosurgical system. An electrosurgical system configured to output therapeutic RF energy may refrain from outputting RF energy in order to measure an RF interference for a group of candidate frequencies, and to select a frequency from the group of candidate frequencies for which the measured RF interference is below a threshold value, and to produce a feedback signal (a control signal) at the selected frequency to control operation of the electrosurgical system. During operation of the electrosurgical system the feedback signal may be filtered by a BPF whose fundamental frequency is set to the selected frequency, to thus obtain an interference free feedback signal and, consequently, a reliable control of the electrosurgical system.Type: GrantFiled: November 2, 2017Date of Patent: September 8, 2020Assignee: Covidien LPInventors: Donald W. Heckel, William D. Faulkner, Donald L. Tonn, Fred B. Pelton
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Publication number: 20190254736Abstract: The present disclosure relates to electrosurgical systems and methods for controlling electrical treatment energy in connection with electrical arcs. A method in accordance with the present disclosure includes providing electrical treatment energy to an instrument based on an indicated electrical energy level, accessing voltage signal values over time relating to voltage of the electrical treatment energy and/or current signal values over time relating to current of the electrical treatment energy, determining whether an arc generated by the instrument is an arc to be maintained or an arc to be extinguished based on a threshold value and at least one of the voltage signal values or the current signal values, and controlling the electrical treatment energy based on determining that the arc is an arc to be extinguished.Type: ApplicationFiled: February 20, 2018Publication date: August 22, 2019Inventors: ROBERT H. WHAM, WILLIAM D. FAULKNER, DONALD L. TONN
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Publication number: 20190132062Abstract: Methods and system are provided to mitigate RF interferences during operation of an electrosurgical system. An electrosurgical system configured to output therapeutic RF energy may refrain from outputting RF energy in order to measure an RF interference for a group of candidate frequencies, and to select a frequency from the group of candidate frequencies for which the measured RF interference is below a threshold value, and to produce a feedback signal (a control signal) at the selected frequency to control operation of the electrosurgical system. During operation of the electrosurgical system the feedback signal may be filtered by a BPF whose fundamental frequency is set to the selected frequency, to thus obtain an interference free feedback signal and, consequently, a reliable control of the electrosurgical system.Type: ApplicationFiled: November 2, 2017Publication date: May 2, 2019Inventors: DONALD W. HECKEL, WILLIAM D. FAULKNER, DONALD L. TONN, FRED B. PELTON
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Publication number: 20190090932Abstract: The present disclosure includes an electrosurgical generator that controls treatment energy to be provided in a coagulation mode, where the treatment energy has an adjustable voltage ramp rate which can be set to a ramp rate in a range of voltage ramp rates. The generator receives signals from an instrument over time relating to load impedance. When the load impedance is above a threshold, the generator sets the adjustable voltage ramp rate to a ramp rate in the range of voltage ramp rates, and decreases, at the adjustable voltage ramp rate, a voltage of the treatment energy. When the load impedance is below the threshold, the generator sets the adjustable voltage ramp rate to a ramp rate in the range of voltage ramp rates, and increases, at the adjustable voltage ramp rate, the voltage of the treatment energy.Type: ApplicationFiled: September 5, 2018Publication date: March 28, 2019Inventors: DONALD L. TONN, JAMES E. DUNNING, WILLIAM D. FAULKNER, JENNIFER R. McHENRY, DEVON E. SCOTT-DRECHSEL, ERIC M. WESTRA