Abstract: A cryogenic balloon catheter system includes a cryoballoon, a guidewire lumen that extends through and is secured to the cryoballoon, an injection line receiver and a fluid injection line. The injection line receiver is fixedly secured to the guidewire lumen so that movement of the guidewire lumen moves the injection line receiver. The injection line receiver includes an interior chamber. The fluid injection line delivers cryogenic fluid to the interior chamber. In certain embodiments, the fluid injection line extends into the injection line receiver and allows relative movement between the fluid injection line and the injection line receiver. The fluid injection line is not affixed to the injection line receiver. The fluid injection line is not affixed to the guidewire lumen. The injection line receiver can include one or more injection line sealers that are positioned around the fluid injection line.

Abstract: A fluid injection line compensation assembly for an intravascular catheter system including a balloon catheter having a guidewire lumen and a cryoballoon, includes a fluid injection line, a proximal fluid injection line stop, and a distal fluid injection line stop. The fluid injection line has a fluid discharge region positioned within the cryoballoon. The fluid discharge region includes a fluid port so that cryogenic fluid can be distributed from the fluid injection line to within the cryoballoon. The fluid discharge region is not affixed to the guidewire lumen. The proximal fluid injection line stop is positioned adjacent to the guidewire lumen, the proximal fluid injection line stop being positioned within the cryoballoon. The distal fluid injection line stop is positioned adjacent to the guidewire lumen so that the fluid discharge region is positioned between the proximal fluid injection line stop and the distal fluid injection line stop.

Abstract: A steering assembly for steering, navigating, articulating and/or positioning a catheter includes a steering ring having a first edge surface, a second edge surface and a side surface. The steering ring includes one or more notches formed within the side surface. The notches are spaced apart and extend to one of the first edge surface and the second edge surface. The steering ring can also include one or more apertures formed within the side surface. In one embodiment, the steering ring can include one or more lattice structures formed within the side surface. In certain embodiments, the lattice structures can form at least approximately 10%, 25% and/or 50% of the side surface.

Abstract: A method for operating an electronic device manufacturing system is provided that includes introducing an inert gas into a process tool vacuum pump at a first flow rate while the process tool is operating in a process mode, and introducing the inert gas into the process tool vacuum pump at a second flow rate while the process tool is operating in a chamber clean mode. Numerous other embodiments are provided.

Abstract: A sensing guidewire device used to measure physiological parameters within a living body. In one embodiment, the device is used to measure the fractional flow reserve (FFR) across a stenotic lesion in a patient's vasculature. The device includes a sensor that is adapted to be affixed near the distal end of a guidewire. The guidewire contains a corewire, processed to enclose electrical conductors in a sealed, off-centered interstice or channel, with an outer diameter approximate to the outer diameter of the device, running substantially the full length of the device, and has a homogenous outer surface. The enclosed eccentric channel provides space for electrical conductors to move freely. The corewire can have a tapered segment to create desirable flexibility. A solid connector comprised of alternating conductive and insulating elements for connecting the conductors to an external device is disclosed.

Abstract: An electronic device manufacturing system is provided that may reduce the amount of resources used in electronic device manufacturing processes. In some embodiments, unreacted ozone exiting a process tool operating in an ozone mode may be diverted and used as an oxidant in an abatement tool when the process tool is operating in a non-ozone mode. Numerous other embodiments are provided.

Abstract: Methods and apparatus for controlling a processing system are provided herein. In some embodiments, a method of controlling a processing system may include operating a vacuum pump coupled to a process chamber at a first baseline pump idle speed selected to maintain the process chamber at a pressure equal to a first baseline pump idle pressure; monitoring the pressure in the process chamber while operating the vacuum pump at the first baseline pump idle speed; and determining whether the first baseline pump idle pressure can be maintained in the process chamber when the vacuum pump is operating at the first baseline pump idle speed.

Abstract: Methods and apparatus for enhanced control, monitoring and recording of incoming chemical and power use, and emissions of electronic device manufacturing systems are provided. In some embodiments, integrated sub-fab system systems may monitor the energy usage of the sub-fab equipment. The tool can enter many different depths of energy savings modes such as idle (shallow energy savings where production equipment can recover to normal production with no quality or throughput impact in seconds), sleep (deeper energy savings where production equipment can recover in minutes), or hibernate (where production equipment may require hours to recover not to have impact on quality, or throughput) for the system. In some embodiments, the system may monitor and display all gas emissions in a sub-fab as well as the Semi S23 method reporting of CO2 equivalent emission. The system may monitor effluent process gases and energy use from the process tool and sub-fab equipment.

Abstract: One aspect of the present disclosure relates to a tissue imaging device that includes a catheter body, a hood, and a visualization assembly. The catheter body includes a distal end portion, a proximal end portion, and at least one lumen extending between the distal and proximal end portions. The catheter body includes at least one drainage port having a first opening and at least one infusion port having a second opening. The first and second openings are located about a lateral aspect of the catheter body. The hood projects distally from the distal end portion and is configured to self-expand into an expanded deployment state that defines an open area therein. The visualization assembly is disposed within the open area and extends distally from the distal end portion of the catheter body.

Abstract: A method for operating an electronic device manufacturing system is provided that includes introducing an inert gas into a process tool vacuum pump at a first flow rate while the process tool is operating in a process mode; and introducing the inert gas into the process tool vacuum pump at a second flow rate while the process tool is operating in a clean mode. Numerous other embodiments are provided.

Abstract: Mitral valve insufficiency is treated by introducing an expansible device such as a balloon bearing an ultrasonic transducer into the heart so that the transducer is positioned adjacent the mitral annulus but spaced from the mitral annulus, and actuating the transducer to heat the mitral annulus, denature collagen in the annulus and thereby shrink the annulus.

Abstract: A method for operating an electronic device manufacturing system is provided, including: introducing an inert gas into a process tool vacuum pump at a first flow rate while the process tool is operating in a process mode; and introducing the inert gas into the process tool vacuum pump at a second flow rate while the process tool is operating in a clean mode. Numerous other embodiments are provided.

Abstract: A method for abating effluent from an electronic device manufacturing process is provided, including abating the effluent in a thermal abatement tool to form abated effluent; determining whether the abated effluent contains one or more chemical species of interest; and changing one or more operating parameters of the thermal abatement tool based upon the determination. Numerous other embodiments are provided.

Abstract: Provided is a method for recovering high-concentration and high-purity amine from amine-containing waste water generated from nuclear power plants and thermal power plants. The method includes: capturing amine and concentrating waste water using a cation exchange resin; separating amine from the concentrated amine-containing waste water; and carrying out further separation of amine via distillation. The method may be applied to treat amine, which causes an increase in biochemical oxygen demand (BOD) and total nitrogen concentration, drastically at the time of its generation from waste water of nuclear power plants and thermal power plants. In this manner, the method may prevent an increase in load of existing waste water treating plants and avoid a need for modifying the equipment in the existing plants.

Abstract: One aspect of the present disclosure relates to a tissue imaging device that includes a catheter body, a hood, and a visualization assembly. The catheter body includes a distal end portion, a proximal end portion, and at least one lumen extending between the distal and proximal end portions. The catheter body includes at least one drainage port having a first opening and at least one infusion port having a second opening. The first and second openings are located about a lateral aspect of the catheter body. The hood projects distally from the distal end portion and is configured to self-expand into an expanded deployment state that defines an open area therein. The visualization assembly is disposed within the open area and extends distally from the distal end portion of the catheter body.

Abstract: A method for operating one or more electronic device manufacturing systems is provided, including the steps 1) performing a series of electronic device manufacturing process steps with a process tool, wherein the process tool produces effluent as a byproduct of performing the series of process steps; 2) abating the effluent with an abatement tool; 3) supplying an abatement resource to the abatement tool from a first abatement resource supply; 4) changing an abatement resource supply from the first abatement resource supply to a second abatement resource supply, wherein changing the abatement resource supply comprises: i) interrupting a flow of the abatement resource from the first abatement resource supply; and ii) beginning a flow of the abatement resource from the second abatement resource supply; and 5) continuing to perform the series of process steps with the process tool, while changing, and after changing, the abatement resource supply.

Abstract: Methods and apparatus for controlling a processing system are provided herein. In some embodiments, a method of controlling a processing system may include operating a vacuum pump coupled to a process chamber at a first baseline pump idle speed selected to maintain the process chamber at a pressure equal to a first baseline pump idle pressure; monitoring the pressure in the process chamber while operating the vacuum pump at the first baseline pump idle speed; and determining whether the first baseline pump idle pressure can be maintained in the process chamber when the vacuum pump is operating at the first baseline pump idle speed.

Abstract: A cardiac ablation device, including a catheter and an expandable ablation element incorporating one or more balloons at the distal end of the catheter, has a continuous passageway extending through it from the proximal end of the catheter to the distal side of the expandable ablation element. A probe carrying electrodes is introduced through this passageway and deploys, under the influence of its own resilience, to a structure incorporating a loop which is automatically aligned with the axis of the expandable ablation device, so that minimal manipulation is required to place the probe. The probe may have an atraumatic tip with a ball formed at the leading edge. The atraumatic tip prevents any tissue damage such as perforation of heart wall.

Abstract: The invention relates to a method of generating a printing color profile for printing a printing image with a digital color printing machine, in particular a multi-color printing machine, preferably an electrophotographically operating printing machine. A transparent layer on top of a multi colorant printed image is taken into consideration during the generation of the printing color profile such that a differential clear printing color profile for the clear material effect is determined, said clear printing color profile being added, as needed, to the printing ink color profile of the remaining printing colors for defined substrate classes and specific clear material and coverage levels.

Abstract: A flame sensor apparatus for use with a flame heated thermal abatement reactor is provided, including a flame sensor adapted to sense a flame within the thermal abatement reactor; and a shutter adapted to selectively block the transmission of radiation from the flame to the flame sensor.