Patents Assigned to Eximis Surgical Inc.
  • Patent number: 12021333
    Abstract: A coupling system and related methods are disclosed. The system has a first plug detachably coupled to a first housing, and a first socket detachably coupled to a second housing. The first socket is configured to receive the first plug. The system is movable between a first configuration wherein the first and second housings are not engaged and a second configuration wherein the first and second housings are engaged and the first plug and the first socket are coupled together.
    Type: Grant
    Filed: December 10, 2020
    Date of Patent: June 25, 2024
    Assignee: Eximis Surgical, Inc.
    Inventors: Robert Fuchs, Dirk Johnson, William N. Gregg
  • Patent number: 12018997
    Abstract: A method and device for detecting leaks of a containment barrier. The method may comprise placing the barrier in contact with one or more volumes of fluid such that the one or more volumes of fluid is in contact with a first surface and a second surface of the containment barrier, then placing a first electrode in contact with a first volume of fluid within in a first area defined by the first surface of the containment barrier. The method may then comprise placing a second electrode in contact with a second volume of fluid in a second area defined by the second surface of the containment barrier, measuring electrical conductivity between the first and second electrodes; and determining a presence of a leak in the containment barrier based on a calculation using properties of the one or more volumes of fluid, the containment barrier, and the measured electrical conductivity.
    Type: Grant
    Filed: September 27, 2019
    Date of Patent: June 25, 2024
    Assignee: Eximis Surgical, Inc.
    Inventors: Joseph A. Paulus, Carlo Balleria, Dirk Johnson, Kristin D. Johnson, William N. Gregg
  • Publication number: 20230363813
    Abstract: A radiofrequency (RF) generator for use with an electrosurgical system includes a shifted, transformed LCLC bandpass filter, configured for allowing the RF generator to operate using a single electrosurgical power setting while preventing overheating of the electrosurgical system. The LCLC bandpass filter may be configured to operate with a specified power curve such that an operating current generated by the RF generator is folded back when approaching short circuit conditions. The RF generator may include a fixed, medical power supply, wherein the specified power curve is modified by switching frequency modulation of the LCLC bandpass filter. Further a method for designing a RF generator for electrosurgical application is disclosed.
    Type: Application
    Filed: May 10, 2023
    Publication date: November 16, 2023
    Applicant: Eximis Surgical Inc.
    Inventor: James A. Gilbert
  • Patent number: 11648045
    Abstract: A tissue segmentation device, controller, and methods therefore are disclosed. The device has an active electrode, a return electrode, a mechanical force application mechanism, voltage and current sensors, and a controller. The controller has a processing component, configured to assign a circuit status to a circuit comprising the at least one electrode. IF (PF?0) and ((Vrms/Irms)?T), THEN the circuit status is “open”. IF (PF?0) and ((Vrms/Irms)<T), THEN the circuit status is “short”. PF is a power factor of power applied to the electrosurgical device. T is a threshold value.
    Type: Grant
    Filed: March 16, 2020
    Date of Patent: May 16, 2023
    Assignee: Eximis Surgical Inc.
    Inventors: James A. Gilbert, Steven C. Rupp, William N. Gregg, Kristin D. Johnson, Dirk Johnson
  • Patent number: 11504103
    Abstract: A tissue specimen removal device comprises a specimen bag; a flexible ring, the flexible ring configured to form a top opening of the specimen bag; a cannula assembly comprising: an inner tube portion and an outer tube portion. The device may further comprise a connector carrier, the connector carrier configured to retain at least one connector housing, the at least one connector housing comprising one or more connector portions and reside within an interior of the connector carrier, and wherein the connector carrier can be moved from a position within the cannula assembly to outside the cannula assembly.
    Type: Grant
    Filed: April 11, 2019
    Date of Patent: November 22, 2022
    Assignee: Eximis Surgical Inc.
    Inventors: Dirk Johnson, William N. Gregg, John R. Twomey, Ryan C. Artale
  • Patent number: 10873164
    Abstract: A coupling system and related methods are disclosed. The system has a first plug detachably coupled to a first housing, and a first socket detachably coupled to a second housing. The first socket is configured to receive the first plug. The system is movable between a first configuration wherein the first and second housings are not engaged and a second configuration wherein the first and second housings are engaged and the first plug and the first socket are coupled together.
    Type: Grant
    Filed: September 22, 2017
    Date of Patent: December 22, 2020
    Assignee: Eximis Surgical Inc.
    Inventors: Robert Fuchs, Dirk Johnson, William N. Gregg
  • Patent number: 10603100
    Abstract: A controller for an electrosurgical device and related methods and devices are disclosed. The controller has a processing component to: (a) derive a power factor of power applied to the electrosurgical device; and (b) responsive to the deriving a power factor, assign a circuit status to a circuit comprising the electrosurgical device. IF (PF?0) and ((Vrms/Irms)?T), THEN the circuit status is “open”. IF (PF?0) and ((Vrms/Irms)<T), THEN the circuit status is “short”. PF is the power factor. Vrms is the root mean square of a voltage associated with the power applied to the at electrosurgical device. Irms is the root mean square of a current associated with the power applied to the electrosurgical device. T is a threshold value.
    Type: Grant
    Filed: April 11, 2017
    Date of Patent: March 31, 2020
    Assignee: Eximis Surgical Inc.
    Inventors: James A. Gilbert, Steven C. Rupp, William N. Gregg, Kristin D. Johnson, Dirk Johnson