Abstract: A system can include memory and a computing device in communication therewith. The system can receive, via an input device, a first conversational input via an input device associated with a URL address. The system can process the first conversational input via a NLP algorithm to determine a context based on the URL address and the first conversational input and determine an intent based on the context and the first conversational input. The system can generate a response to the first conversational input based on the context and the intent. The system can receive a second conversational input. The system can process the second conversational input via the NLP algorithm to generate an updated intent based on the first conversational input, the second conversational input, and the URL address. The computing device can generate a second response to the second conversational input based on the updated intent and the context.

Abstract: A digital sampling oscilloscope (DSO) includes a housing, an analog measurement input interface arranged in a housing wall of the housing and a measurement acquisition system having a digitizer and an acquisition memory coupled to the digitizer. The measurement acquisition system is integrated into the housing and coupled to the analog measurement input interface. The DSO further includes a signal generator integrated into the housing. An operation mode control signal output interface is arranged in a housing wall of the housing. The signal generator is coupled to the operation mode control signal output interface and is configured to output an operation mode control signal to a device under test (DUT) connected to both the operation mode control signal output interface and the analog measurement input interface for controlling a test operation mode of the DUT.

Abstract: An encapsulated filtered feedthrough assembly for an implantable medical device including a ferrule, an electrical insulator coupled to the ferrule, a printed circuit board (PCB), a feedthrough conductor extending through the electrical insulator and the PCB, and a capacitor coupled to the PCB. The encapsulated filtered feedthrough assembly can include a mold defining an opening and located with respect to the printed circuit board such that at least a portion of the capacitor is positioned within the opening. A first non-conductive material can underfill the capacitor and a second non-conductive material can be backfilled into the mold to encapsulate the capacitor.

Abstract: A digital sampling oscilloscope (DSO) includes a housing, an analog measurement input interface arranged in a housing wall of the housing and a measurement acquisition system having a digitizer and an acquisition memory coupled to the digitizer. The measurement acquisition system is integrated into the housing and coupled to the analog measurement input interface. The DSO further includes a signal generator integrated into the housing. An operation mode control signal output interface is arranged in a housing wall of the housing. The signal generator is coupled to the operation mode control signal output interface and is configured to output an operation mode control signal to a device under test (DUT) connected to both the operation mode control signal output interface and the analog measurement input interface for controlling a test operation mode of the DUT.

Abstract: A filtered feedthrough assembly for an implantable medical device comprises a ferrule, an electrical insulator coupled to the ferrule by a connection element, a plurality of feedthrough conductors extending through the electrical insulator, a printed circuit board (PCB), and plurality of capacitors. The PCB is coupled to the ferrule or the electrical insulator, and includes one or more ground layers and a plurality of vias. The connection element is electrically coupled to the ground layer through the vias. The capacitor has a ground terminal electrically coupled to the ground layer through at least one of the vias, and a conductor terminal electrically coupled to the feedthrough conductor.

Abstract: An encapsulated filtered feedthrough assembly for an implantable medical device including a ferrule, an electrical insulator coupled to the ferrule, a printed circuit board (PCB), a feedthrough conductor extending through the electrical insulator and the PCB, and a capacitor coupled to the PCB. The encapsulated filtered feedthrough assembly can include a mold defining an opening and located with respect to the printed circuit board such that at least a portion of the capacitor is positioned within the opening. A first non-conductive material can underfill the capacitor and a second non-conductive material can be backfilled into the mold to encapsulate the capacitor.

Abstract: An encapsulated filtered feedthrough assembly for an implantable medical device including a ferrule, an electrical insulator coupled to the ferrule, a printed circuit board (PCB), a feedthrough conductor extending through the electrical insulator and the PCB, and a capacitor coupled to the PCB. The encapsulated filtered feedthrough assembly can include a mold defining an opening and located with respect to the printed circuit board such that at least a portion of the capacitor is positioned within the opening. A first non-conductive material can underfill the capacitor and a second non-conductive material can be backfilled into the mold to encapsulate the capacitor.

Abstract: A filtered feedthrough assembly for an implantable medical device comprises a ferrule, an electrical insulator coupled to the ferrule by a connection element, a plurality of feedthrough conductors extending through the electrical insulator, a printed circuit board (PCB), and plurality of capacitors. The PCB is coupled to the ferrule or the electrical insulator, and includes one or more ground layers and a plurality of vias. The connection element is electrically coupled to the ground layer through the vias. The capacitor has a ground terminal electrically coupled to the ground layer through at least one of the vias, and a conductor terminal electrically coupled to the feedthrough conductor.

Abstract: A filtered feedthrough assembly for an implantable medical device comprises a ferrule, an electrical insulator coupled to the ferrule by a connection element, a plurality of feedthrough conductors extending through the electrical insulator, a printed circuit board (PCB), and plurality of capacitors. The PCB is coupled to the ferrule or the electrical insulator, and includes one or more ground layers and a plurality of vias. The connection element is electrically coupled to the ground layer through the vias. The capacitor has a ground terminal electrically coupled to the ground layer through at least one of the vias, and a conductor terminal electrically coupled to the feedthrough conductor.

Abstract: A filtered feedthrough assembly for an implantable medical device includes a ferrule, an electrical insulator coupled to the ferrule by a connection element, a plurality of feedthrough conductors extending through the electrical insulator, a printed circuit board (PCB), and a plurality of capacitors. The PCB is coupled to the ferrule or the electrical insulator, and includes one or more ground layers and a plurality of vias. The connection element is electrically coupled to the ground layer through the vias. The capacitor has a ground terminal electrically coupled to the ground layer through at least one of the vias, and a conductor terminal electrically coupled to the feedthrough conductor.

Abstract: An encapsulated filtered feedthrough assembly for an implantable medical device including a ferrule, an electrical insulator coupled to the ferrule, a printed circuit board (PCB), a feedthrough conductor extending through the electrical insulator and the PCB, and a capacitor coupled to the PCB. The encapsulated filtered feedthrough assembly can include a mold defining an opening and located with respect to the printed circuit board such that at least a portion of the capacitor is positioned within the opening. A first non-conductive material can underfill the capacitor and a second non-conductive material can be backfilled into the mold to encapsulate the capacitor.

Abstract: A toilet vent comprising a first fluid connection and a second fluid connection. Said first fluid connection is between an upper portion of a tank of a toilet above a sanitary fluid level and a gas outlet outside of said tank. Said second fluid connection is between a supply line outside of said tank and one or more tank components inside of said tank. Said toilet vent is capable of housing said first fluid connection and said second fluid connection. A portion of said toilet vent, containing a portion of both said first fluid connection and said second fluid connection, passes through a fluid input in a bottom of said tank.

Abstract: A safety net support system is provided. The system includes a plurality of support members having a material positioned there between to create a barrier between neighboring support members. The system further includes a pneumatic anchorage member functionally coupled to a source of pressurized air. An anchorage member is configured to sustain a corresponding support member. Each anchorage member includes a vacuum cup and a control input that can transition the anchorage member between an engaged state and a disengaged state. In the engaged state, the anchorage member utilizes the pressurized air to establish a vacuum between the vacuum cup and a surface in contact with the vacuum cup. In the disengaged state, the anchorage member utilizes the pressurized air to establish an air cushion between the vacuum cup and the surface.

Abstract: A multi compartmental receptacle for releasably and securely holding multiple marker caps holding markers simultaneously and facilitating easy marker management while in use.

Abstract: A filtered feedthrough assembly for an implantable medical device comprises a ferrule, an electrical insulator coupled to the ferrule by a connection element, a plurality of feedthrough conductors extending through the electrical insulator, a printed circuit board (PCB), and plurality of capacitors. The PCB is coupled to the ferrule or the electrical insulator, and includes one or more ground layers and a plurality of vias. The connection element is electrically coupled to the ground layer through the vias. The capacitor has a ground terminal electrically coupled to the ground layer through at least one of the vias, and a conductor terminal electrically coupled to the feedthrough conductor.

Abstract: The present invention relates to compositions of submicron- to micron-size particles of antimicrobial agents. More particularly the invention relates to a composition of an antimicrobial agent that renders the agent potent against organisms normally considered to be resistant to the agent. The composition comprises an aqueous suspension of submicron- to micron-size particles containing the agent coated with at least one surfactant selected from the group consisting of: ionic surfactants, non-ionic surfactants, biologically derived surfactants, and amino acids and their derivatives. The particles have a volume-weighted mean particle size of less than 5 ?m as measured by laser diffractometry.

Abstract: The present invention relates to compositions of submicron- to micron-size particles of antimicrobial agents. More particularly the invention relates to a composition of an antimicrobial agent that renders the agent potent against organisms normally considered to be resistant to the agent. The composition comprises an aqueous suspension of submicron- to micron-size particles containing the agent coated with at least one surfactant selected from the group consisting of: ionic surfactants, non-ionic surfactants, biologically derived surfactants, and amino acids and their derivatives. The particles have a volume-weighted mean particle size of less than 5 ?m as measured by laser diffractometry.

Abstract: A cooling media pack is provided which is adapted to be used in either film-fill or splash-fill cooling towers. The pack is formed of a plurality of alternating sheets, each of which has an undulating shape, thereby defining a series of ridges in each sheet. Each of the ridges has a peak and trough. The sheets are oriented such that the troughs of one sheet are adjacent the peaks on an adjacent sheet. Further, the ridges of every other sheet are oriented at a first angle with respect to the horizontal and the ridges of the remaining sheets are oriented at a second angle with respect to the horizontal. Each of the sheets includes a plurality of voids which are designed to enhance the efficiency of the cooling media pack, inhibit fouling, and inhibit the formation and/or accumulation of bacteria.

Abstract: The present invention relates to compositions of submicron- to micron-size particles of antimicrobial agents. More particularly the invention relates to a composition of an antimicrobial agent that renders the agent potent against organisms normally considered to be resistant to the agent. The composition comprises an aqueous suspension of submicron- to micron-size particles containing the agent coated with at least one surfactant selected from the group consisting of: ionic surfactants, non-ionic surfactants, biologically derived surfactants, and amino acids and their derivatives. The particles have a volume-weighted mean particle size of less than 5 ?m as measured by laser diffractometry.