Patent application number | Description | Published |
20120080832 | DEVICES FOR METHODOLOGIES RELATED TO WAFER CARRIERS - Disclosed are systems, devices and methodologies for handling wafers in wafer processing operations through use of wafer carriers. In an example situation, a wafer carrier can be configured as a plate to allow bonding of a wafer thereto to provide support for the wafer during some processing operations. Upon completion of such operations, the processed wafer can be separated from the support plate so as to allow further processing. Various devices and methodologies related to such wafer carriers for efficient handling of wafers are disclosed. | 04-05-2012 |
20120083051 | APPARATUS AND METHODS FOR ELECTRICAL MEASUREMENTS IN A PLASMA ETCHER - Apparatus and methods for plasma etching are disclosed. In one embodiment, an apparatus for etching a plurality of features on a wafer comprises a chamber, a feature plate disposed in the chamber for holding the wafer, a gas channel configured to receive a plasma source gas, an anode disposed above the feature plate, a cathode disposed below the feature plate, a radio frequency power source configured to provide a radio frequency voltage between the anode and the cathode so as to generate plasma ions from the plasma source gas, a pump configured to remove gases and etch particulates from the chamber, and a clamp configured to clamp the wafer against the feature plate. The clamp includes at least one measurement hole for passing a portion of the plasma ions to measure a DC bias of the feature plate. | 04-05-2012 |
20120083129 | APPARATUS AND METHODS FOR FOCUSING PLASMA - Apparatus and methods for plasma etching are disclosed. In one embodiment, a method for etching a plurality of features on a wafer includes positioning the wafer within a chamber of a plasma etcher, generating plasma ions using a radio frequency power source and a plasma source gas, directing the plasma ions toward the wafer using an electric field, and focusing the plasma ions using a plasma focusing ring. The plasma focusing ring is configured to increase a flux of plasma ions arriving at a surface of the wafer to control the formation of the plurality of features and structures associated therewith. | 04-05-2012 |
20120083130 | APPARATUS AND METHODS FOR SHIELDING A PLASMA ETCHER ELECTRODE - Apparatus and methods for plasma etching are disclosed. In one embodiment, a method of etching a plurality of features on a wafer includes positioning a wafer on a feature plate within a chamber of a plasma etcher, providing a plasma source gas within the chamber, providing an anode above the feature plate and a cathode below the feature plate, connecting a portion of the cathode to the feature plate, generating plasma ions using a radio frequency power source and the plasma source gas, directing the plasma ions toward the wafer using an electric field, and providing an electrode shield around the cathode. The electrode shield is configured to protect the cathode from ions directed toward the cathode including the portion of the cathode connected to the feature plate. | 04-05-2012 |
Patent application number | Description | Published |
20090056786 | Photovoltaic receiver - A solar receiver can have a base plate having a first surface and a second surface, a plurality of solar cells positioned over and supported by the first surface of the base plate, each solar cell having a cell face suitable for receiving solar radiation that faces away from the base plate, the plurality of solar cells being arranged in at least one string having a string axis, and a plurality of fins attached directly to the second surface of the base plate, wherein the fins extend outwardly from the second surface of the base plate in a direction that is generally perpendicular to both the string axis and the solar cell faces. | 03-05-2009 |
20100193014 | PHOTOVOLTAIC RECEIVER - A solar receiver can have a base plate having a first surface and a second surface, a plurality of solar cells positioned over and supported by the first surface of the base plate, each solar cell having a cell face suitable for receiving solar radiation that faces away from the base plate, the plurality of solar cells being arranged in at least one string having a string axis, and a plurality of fins attached directly to the second surface of the base plate, wherein the fins extend outwardly from the second surface of the base plate in a direction that is generally perpendicular to both the string axis and the solar cell faces. | 08-05-2010 |
20110226310 | SOLAR ENERGY COLLECTION SYSTEM - In one aspect of the present invention, a solar energy collection system will be described that includes a collector row and at least one stand that supports the collector row. Multiple longitudinally adjacent collectors are arranged end to end along a longitudinal axis to form the collector row. Each collector includes a reflector, at least one solar receiver and a support structure. The support structure supports the solar receivers and the reflector. The reflectors of the collector row are configured to have a range of tilt angles that are at least ±70 degrees around the pivot axis. In various embodiments, the reflectors of the adjacent collectors are arranged to collectively form a substantially continuous reflective surface along the length of the collector row. | 09-22-2011 |
Patent application number | Description | Published |
20130338559 | BLOOD PUMP SYSTEMS AND METHODS - The present invention relates to a rotary blood pump with a double pivot contact bearing system with an operating range between about 50 mL/min and about 1500 mL/min is described, wherein the force on the upper bearing is less than 3N during operating speeds up to 6000 rpm. The invention also relates to a method of using a blood pump system for persistently increasing the overall diameter and lumen diameter of peripheral veins and arteries by persistently increasing the speed of blood and the wall shear stress in a peripheral vein or artery for period of time sufficient to result in a persistent increase in the overall diameter and lumen diameter of the vessel is provided. The blood pump system may also be used to reduce venous hypertension in a lower extremity and increasing the rate of healing of lower extremity venous ulcers in patients is provided. The blood pump system includes a blood pump, blood conduit(s), a control system with optional sensors, and a power source. The pump system is configured to connect to the vascular system in a patient and pump blood at a desired rate. The pumping of blood is monitored and adjusted, as necessary, to maintain the desired elevated blood speed and wall shear stress, and the desired pulsatility in the target artery or vein in order to optimize the rate and extent of the persistent increase in the overall diameter and lumen diameter of the target peripheral artery or vein or to result in a reduction in venous blood pressure in the treated lower extremity or healing of the lower extremity venous ulcer. | 12-19-2013 |
20150209498 | BLOOD PUMP SYSTEMS AND METHODS - The present invention relates to a rotary blood pump with a double pivot contact bearing system with an operating range between about 50 mL/min and about 1500 mL/min. The rotary blood pump is part of a blood pump system that includes blood conduit(s), a control system with optional sensors, and a power source. Embodiments of the present invention may include elements such as wear resistant bearing materials, a rotor back plate for magnetic attraction of the rotor to reduce bearing pivot bearing forces and wear, a rotor size and shape and a bearing gap that combine to create a hydrodynamic bearing effect and reduce bearing pivot bearing forces and wear, improved intravascular conduits with increased resistance to thrombosis, conduit insertion site cuffs to resist infection, and conduit side ports amenable to the easy insertion of guidewire and catheter-based medical devices. | 07-30-2015 |
Patent application number | Description | Published |
20100251571 | Shoe suspension system - A shoe suspension system and device are provided. In a first version of the Present Invention a device attached to an undersole of a shoe directs a spring force toward the ground in one direction and toward a heel section of the undersole of the shoe, whereby the heel section receives the spring force in an axis substantially normal to the undersole. In another version, a ground plate extends from a hinge, the hinge is attached to the shoe undersole, and a spring element is coupled at one end to the ground plane and at another end to the undersole, whereby a substantially planar orientation of undersole is supported by the device. In yet another version, a linkage including a plurality of hinges and arms is attached to a shoe undersole and directs a force toward a heel plane of the undersole. | 10-07-2010 |
20140257019 | Methods, Systems, and Devices Relating to a Fail-Safe Pump for a Medical Device - The various embodiments herein relate to pumps for use with various medical devices. The pumps can be positive displacement pumps or gear pumps. Each pump has at least one fluid transfer opening defined in the pump that allows for transfer of fluid at a predetermined flow rate that provides for deflation of the device in a predetermined amount of time. | 09-11-2014 |
20140262408 | Drivers and Drive System - Drivers and drive systems (e.g., off-axis drive systems, pneumatic motors, multi-gear drive systems, and/or the like), and kits comprising drivers with drive systems, such as those, for example, configured to move a drive shaft. | 09-18-2014 |
20140378750 | UTERINE LAVAGE FOR EMBRYO RETRIEVAL - A device for recovering one or more blastocysts from a uterus of a human includes an outer guide member for insertion into a cervical canal of the human. The outer guide member includes a distal portion with an activatable seal for isolating the uterus from the external environment. The outer guide member defines a lumen having a longitudinal axis. The device also includes an inner catheter located within the lumen and slidable along the longitudinal axis of the lumen relative to the outer guide member. The inner catheter has a distal tip positionable distally of the seal to extend into the uterus and includes a fluid delivery lumen terminating at a distal fluid delivery port for delivering fluid into the uterus. The inner catheter also includes a flared suction port for aspirating fluid and entrained blastocysts from the uterus | 12-25-2014 |
20140378752 | UTERINE LAVAGE FOR EMBRYO RETRIEVAL - A device for recovering one or more blastocysts from a uterus of a human includes an outer guide member for insertion into a cervical canal of the human, The outer guide member includes a distal portion with an activatable seal for isolating the uterus from the external environment. The outer guide member defines a lumen having a longitudinal axis. The device also includes an inner catheter located within the lumen and slidable along the longitudinal axis of the lumen relative to the outer guide member. The inner catheter has dual supply lines positionable distally of the seal to extend into the uterus. Each supply line includes a fluid delivery lumen and multiple fluid delivery ports for delivering fluid into the uterus. The device defines a distal suction port for aspirating fluid and entrained blastocysts from the uterus. | 12-25-2014 |
20140378753 | UTERINE LAVAGE FOR EMBRYO RETRIEVAL - A device for recovering one or more blastocysts from the uterus of a human includes an outer guide member for insertion into a cervical canal of the human. The outer guide member includes a distal portion with an activatable seal for isolating the uterus from the external environment and defines a lumen having a longitudinal axis. The device also includes an inner catheter located within the lumen and slidable along the longitudinal axis of the lumen relative to the outer guide member. The inner catheter has a distal tip positionable distally of the seal to extend into the uterus and includes a fluid delivery lumen terminating at a distal fluid delivery port for delivering fluid into the uterus. The device defines a distal suction port for aspirating fluid and entrained blastocysts from the uterus. The distal fluid delivery port and the distal suction port are arranged such that, in use, fluid delivered from the distal fluid delivery port travels through the distal suction port to the uterus. | 12-25-2014 |
20140378754 | UTERINE EMBRYO RETRIEVAL - A device for recovering one or more blastocysts from a uterus of a human includes an outer guide member for insertion into a cervical canal of the human. The outer guide member includes a distal portion with an activatable seal for isolating the uterus from the external environment. The outer guide member defines a lumen having a longitudinal axis. The device also includes an inner catheter located within the lumen and slidable along the longitudinal axis of the lumen relative to the outer guide member. The inner catheter has a distal tip positionable distally of the seal to extend into the uterus. The distal tip includes a semi-permeable absorbent head. The device defines a distal suction port for aspirating blastocysts from the uterus through the absorbent head. | 12-25-2014 |
20140378756 | UTERINE LAVAGE FOR EMBRYO RETRIEVAL - A device for recovering one or more blastocysts from the uterus of a human includes an outer guide member for insertion into a cervical canal of the human. The outer guide member includes a distal portion with an activatable seal for isolating the uterus from the external environment and defines a lumen having a longitudinal axis. The device also includes an inner catheter located within the lumen and slidable along the longitudinal axis of the lumen relative to the outer guide member. The inner catheter has a distal tip positionable distally of the seal to extend into the uterus and includes a fluid delivery lumen terminating at a distal fluid delivery port for delivering fluid into the uterus. The device defines a distal suction port for aspirating fluid and entrained blastocysts from the uterus. The distal fluid delivery port and the distal suction port are arranged such that, in use, fluid delivered from the distal fluid delivery port travels through the distal suction port to the uterus. | 12-25-2014 |
20150272622 | RECOVERY AND PROCESSING OF HUMAN EMBRYOS FORMED IN VIVO - A kit having instructions for use for performing uterine lavage in a female patient includes a uterine lavage catheter configured for insertion into a woman's uterus to remove viable blastocysts from the uterus, and one or more first containers having a sufficient dosage amount of a GnRH antagonist to cause desynchronization of the endometrium of the patient prior to, during and/or following recovery of viable blastocysts from the uterus. | 10-01-2015 |
20150335354 | RECOVERY AND PROCESSING OF HUMAN EMBRYOS FORMED IN VIVO - A kit having instructions for use for performing uterine lavage in a female patient includes a uterine lavage catheter configured for insertion into a woman's uterus to remove viable blastocysts from the uterus, and one or more first containers having a sufficient dosage amount of a GnRH antagonist to cause desynchronization of the endometrium of the patient prior to, during and/or following recovery of viable blastocysts from the uterus. | 11-26-2015 |
20150335700 | RECOVERY AND PROCESSING OF HUMAN EMBRYOS FORMED IN VIVO - A kit having instructions for use for performing uterine lavage in a female patient includes a uterine lavage catheter configured for insertion into a woman's uterus to remove viable blastocysts from the uterus, and one or more first containers having a sufficient dosage amount of a GnRH antagonist to cause desynchronization of the endometrium of the patient prior to, during and/or following recovery of viable blastocysts from the uterus. | 11-26-2015 |
20150335701 | RECOVERY AND PROCESSING OF HUMAN EMBRYOS FORMED IN VIVO - A kit having instructions for use for performing uterine lavage in a female patient includes a uterine lavage catheter configured for insertion into a woman's uterus to remove viable blastocysts from the uterus, and one or more first containers having a sufficient dosage amount of a GnRH antagonist to cause desynchronization of the endometrium of the patient prior to, during and/or following recovery of viable blastocysts from the uterus. | 11-26-2015 |