Patent application number | Description | Published |
20120306535 | STRUCTURES AND METHODS FOR DESIGN AUTOMATION OF RADIATION HARDENED TRIPLE MODE REDUNDANT DIGITAL CIRCUITS - The disclosure relates generally to triple-redundant sequential state (TRSS) machines formed as integrated circuits on a semiconductor substrate, such as CMOS, and computerized methods and systems of designing the triple-redundant sequential state machines. Of particular focus in this disclosure are sequential state elements (SSEs) used to sample and hold bit states. The sampling and holding of bits states are synchronized by a clock signal thereby allowing for pipelining in the TRSS machines. In particular, the clock signal may oscillate between a first clock state and a second clock state to synchronize the operation of the SSE according to the timing provided by the clock states. The | 12-06-2012 |
20140331197 | SEQUENTIAL STATE ELEMENTS IN TRIPLE-MODE REDUNDANT (TMR) STATE MACHINES - The disclosure relates generally to triple-redundant sequential state (TRSS) machines formed as integrated circuits on a semiconductor substrate, such as CMOS, and computerized methods and systems of designing the triple-redundant sequential state machines. Of particular focus in this disclosure are sequential state elements (SSEs) used to sample and hold bit states. The sampling and holding of bits states are synchronized by a clock signal thereby allowing for pipelining in the TRSS machines. In particular, the clock signal may oscillate between a first clock state and a second clock state to synchronize the operation of the SSE according to the timing provided by the clock states. The SSEs has a self-correcting mechanism to protect against radiation induced soft errors. The SSE may be provided in a pipeline circuit of a TRSS machine to receive and store a bit state of bit signal generated by combinational circuits within the pipeline circuit. | 11-06-2014 |
20150363517 | TECHNIQUES FOR GENERATING PHYSICAL LAYOUTS OF IN SILICO MULTI MODE INTEGRATED CIRCUITS - This disclosure relates generally to computerized systems and methods of producing a physical representation of an in silico Integrated Circuit (IC) having an in silico Multi-Mode Redundant (MMR) pipeline circuit. An IC layout of the in silico IC is initially generated with the electronic design automation (EDA) program. Multi-Mode Redundant Self-Correcting Sequential State Element (MMRSCSSE) layouts are then rendered immotile while initial redundant Combinational Logic Circuit (CLC) layouts are removed from the IC layout after the MMRSCSSE layouts have been rendered immotile. By first placing the MMRSCSSE layouts and then rendering them immotile, the remaining logic can be placed again and optimized without compromising critical node spacing. As such, the described method provides for a more efficient way to create the IC layout of the in silico IC while maintaining critical node spacing. | 12-17-2015 |
Patent application number | Description | Published |
20100003410 | PRESSURIZATION COATING SYSTEMS, METHODS, AND APPARATUSES - Exemplary pressurization and coating systems, methods, and apparatuses are described herein. In certain embodiments, pressurization systems, methods, and apparatuses are used in conjunction with coating systems, methods, and apparatuses to control pressure about a substrate after a coating material is applied to a surface of the substrate. An exemplary system includes a die tool configured to apply a coating material to a substrate passing through the die tool and a pressurization apparatus attached to the die tool and forming a pressurization chamber. The pressurization apparatus is configured to receive the substrate from the die tool and control pressure about the substrate in the pressurization chamber. In certain embodiments, the die tool forms a coating chamber and is configured to apply the coating material on at least one surface of the substrate in the coating chamber. | 01-07-2010 |
20110209834 | Window Covering Apparatus - Exemplary window covering apparatus, assemblies, and associated methods are disclosed herein. An exemplary window covering apparatus comprises a headrail, a covering attached to and extending vertically downward from the headrail, a pull cord configured to be operated by a user, a lift cord connecting a bottom of the covering to the pull cord by way of the headrail, the lift cord configured to lift the bottom of the covering to collapse the covering toward the headrail or drop the bottom of the covering to extend the covering away from the headrail when the pull cord is operated by the user, and an elongate sheath that ensheathes an otherwise exposed segment of the lift cord. | 09-01-2011 |
20120261852 | WINDOW COVERING COMPONENT MANUFACTURING SYSTEMS, METHODS, AND APPARATUSES - Exemplary window covering component manufacturing systems, methods, and apparatuses are described herein. An exemplary window covering component manufacturing method includes 1) feeding two separate opposing surface sheets through a sizing channel space formed between opposing sizing elements, 2) depositing foam forming chemicals between the two separate opposing surface sheets before entry of the two separate opposing surface sheets into the sizing channel space, and 3) facilitating at least one reaction of the foam forming chemicals to form a foam material that expands in volume within the sizing channel space to press the two separate opposing surface sheets against the opposing sizing elements and then cures to form a rigid core disposed between and bonded to the two separate opposing surface sheets. Other exemplary window covering component manufacturing systems, methods, and apparatuses are also described herein. | 10-18-2012 |
20130287960 | PRESSURIZATION COATING SYSTEMS, METHODS, AND APPARATUSES - Exemplary pressurization and coating systems, methods, and apparatuses are described herein. In certain embodiments, pressurization systems, methods, and apparatuses are used in conjunction with coating systems, methods, and apparatuses to control pressure about a substrate after a coating material is applied to a surface of the substrate. An exemplary system includes a die tool configured to apply a coating material to a substrate passing through the die tool and a pressurization apparatus attached to the die tool and forming a pressurization chamber. The pressurization apparatus is configured to receive the substrate from the die tool and control pressure about the substrate in the pressurization chamber. In certain embodiments, the die tool forms a coating chamber and is configured to apply the coating material on at least one surface of the substrate in the coating chamber. In other embodiments, the pressurization chamber further includes one or more sprayers which are configured to apply a coolant to one or more outer surfaces of the coated substrate. | 10-31-2013 |
20140238623 | SYSTEM FOR PIVOTING A BLIND SLAT - Systems and methods for pivoting a blind slat by manipulating one or more tilt cords of a set of blind slats to achieve superior blind closure. More particularly, the present invention relates to a window covering having a blind slat that is rotated clockwise or counter-clockwise by rotating a driving mechanism that is positioned in a horizontal orientation. The present invention further relates to a window covering system that achieves tilting of blind slats without requiring the traditional tilting components of standard Venetian-type blinds. | 08-28-2014 |
20140246156 | CORD MANAGEMENT FOR A WINDOW COVERING - The present invention relates to cord management systems for window coverings. More particularly, the present invention relates to various structures and features to lift and/or tilt Venetian-type horizontal blind slats. | 09-04-2014 |
Patent application number | Description | Published |
20090088631 | CATHETER - An improved catheter is provided. The catheter may include a deflectable member located at a distal end of the catheter. The deflectable member may comprise an ultrasound transducer array. The catheter may include a lumen extending from a proximal end of the catheter to the distal end. The lumen may be used to deliver an interventional device to a point distal to the distal end of the catheter. The deflectable member may be selectively deflectable in a pivot-like manner through an arc of at least 90 degrees. In embodiments where the deflectable member includes an ultrasound transducer array, the ultrasound transducer array may be operable to image both when aligned with the catheter and when pivoted relative to the catheter. When pivoted relative to the catheter, the ultrasound transducer array may have a field of view distal to the distal end of the catheter. | 04-02-2009 |
20090093748 | LOOP-TIP CATHETER - A hemodialysis catheter, including an elongate body with an outer wall enclosing an arterial lumen and a venous lumen, and a method of making same. A loop extends from a distal end of the body and defines an enclosed opening. An arterial inlet in fluid communication with the arterial lumen, and a venous outlet in fluid communication with the venous lumen, are positioned on the loop. | 04-09-2009 |
20090112153 | SPLIT-TIP CATHETER INCLUDING LATERAL DISTAL OPENINGS - A split-tip catheter for placement within the vasculature of a patient and for use in hemodialysis or other suitable procedures is disclosed. In one embodiment, the split-tip catheter includes a catheter body that defines a first lumen and a second lumen. The catheter body further comprises a split distal region, including a venous segment that defines a distal portion of the first lumen and an arterial segment that defines a distal portion of the second lumen. The venous segment includes a recess extending proximally of a nose portion; and a lateral opening in fluid communication with the first lumen. The arterial segment is separate from the venous segment and is removably seatable in the recess provided by the venous segment such that it “nests” therein. The arterial segment also includes a lateral opening in fluid communication with the second lumen. | 04-30-2009 |
20100132879 | REINFORCED MULTI-LUMEN CATHETER - A reinforced multi-lumen catheter and method of manufacturing the same. An assembly for manufacturing the multi-lumen catheter includes a catheter body substrate including a septum, one or more mandrels, a reinforcing element and one or more sleeves. The septum may have a distal region with a cross-sectional thickness greater than that of a proximal region. The septum can be separately formed. The septum can be split along a length of the distal region. The reinforcing element can be positioned over at least a proximal region of the catheter body substrate. | 06-03-2010 |