Patent application number | Description | Published |
20110178429 | VACUUM ASSISTED LANCING SYSTEM AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A lancing system can include a device body having a sealing device coupled to a lancing end, a lancing shaft slideably coupled to the lancing end, a lancing spring coupled to the lancing shaft, a release mechanism, a main shaft slideably coupled with a free end of the device body in communication with the release mechanism, a piston coupled to the main shaft, a vacuum spring coupled to the piston, and a shaft coupler having at least two separable portions for removably coupling the lancing shaft to the main shaft. The system can include a lance tool having an insertion portion and a removal portion. A method can include creating a first portion of a vacuum, lancing a surface, and creating a second portion of a vacuum. | 07-21-2011 |
20110178430 | VACUUM ASSISTED LANCING SYSTEM WITH CONTROLLED RATE AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A lancing system can include a first device body having a lancing end and a free end, the lancing end including a sealing device, a lancing assembly having a lance coupler slideably coupled with the lancing end, a main shaft slideably coupled with the body, a first piston disposed within the body, wherein the lancing assembly is adapted to create a vacuum prior to lancing and dissipate the vacuum at a controlled rate. The system can include a second device body fluidicly coupled to the first device body and having a second shaft and a second piston. A method of extracting blood can include coupling the sealing device to a surface, creating a vacuum, lancing the surface, and dissipating the vacuum at a controlled rate. | 07-21-2011 |
20110178431 | VACUUM ASSISTED LANCING SYSTEM WITH DEPTH CONTROLLER AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A lancing system can include a device body having a lancing end, a lancing mechanism including a lancing shaft slideably coupled with the lancing end of the body, a main shaft slideably coupled with the body and having an actuating end disposed inside the body, a piston coupled to the main shaft and disposed within the body, a spring coupled to the piston, a release mechanism adapted to selectively couple with the main shaft, and a depth controller removably coupled to the lancing end of the body. A method can include coupling a lance having a needle and a base to the lancing shaft, choosing to use a depth controller having a spacer with a top surface and an opening, engaging a lancing surface with the depth controller, actuating the lancing mechanism, penetrating the lancing surface, and contacting the top surface of the spacer with the base. | 07-21-2011 |
20110178432 | VACUUM ASSISTED LANCING SYSTEM WITH BIDIRECTIONAL MECHANISM AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A lancing system can include a device body having a lancing end and a free end, a lancing shaft having an actuating end, a stop coupled to the body, a lancing spring coupled to the lancing shaft, a main shaft having an actuating end, and a shaft coupler having at least two separable portions for removably coupling the lancing shaft to the main shaft, wherein a first portion is coupled to the actuating end of the lancing shaft and a second portion is coupled to the actuating end of the main shaft. A method of extracting blood can include coupling the actuating end of the main shaft to the actuating end of the lancing shaft, moving the lancing shaft toward the free end of the device body, stopping the lancing shaft, uncoupling the actuating ends, and moving the lancing shaft toward a surface to be lanced. | 07-21-2011 |
20110178434 | VACUUM ASSISTED LANCING SYSTEM WITH SYSTEM AND METHOD FOR BLOOD EXTRACTION AND MASKING PAIN - A method of masking pain resulting from a lancing system can include moving a first portion and a second portion of a lancing assembly in a first direction, stopping the first portion of the lancing assembly from further moving in the first direction, thereby causing a first vibration, allowing the first portion to move in a second direction while the second portion continues moving in the first direction, and lancing a surface with the first portion while the first vibration is occurring. A system for lancing a surface and masking resulting pain may include a device body having an end adapted to sealingly engage the surface, means for creating a first portion of a vacuum, means for causing a vibration, and a lancing mechanism coupled to the body and adapted to lance the surface while the first portion of the vacuum and the vibration are acting on the surface. | 07-21-2011 |
20120143086 | VACUUM ASSISTED LANCING SYSTEM WITH ELECTIVE VACUUM RELEASE AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A vacuum assisted lancing system for blood extraction can include a tubular body having a vacuum chamber, a lancing mechanism configured to removably couple with a lance, a vacuum mechanism including a piston slideably coupled within the body, a release mechanism for selectively holding the vacuum mechanism in an energized state, and an opening for allowing fluid communication between the vacuum chamber and an atmosphere surrounding the vacuum chamber. The system can include means for selectively commencing dissipation of the vacuum and a fixed or adjustable depth controller. A method of manipulating a surface for blood extraction can include coupling the lancing system to the surface, blocking the opening, creating a vacuum, moving the lance coupler from a first position distal from the surface to a second position proximal to the surface, maintaining the vacuum for a period of time, and commencing dissipation of the vacuum by unblocking the opening. | 06-07-2012 |
20130261500 | VACUUM ASSISTED LANCING SYSTEM AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A lancing system can include a device body having a sealing device coupled to a lancing end, a lancing shaft slideably coupled to the lancing end, a lancing spring coupled to the lancing shaft, a release mechanism, a main shaft slideably coupled with a free end of the device body in communication with the release mechanism, a piston coupled to the main shaft, a vacuum spring coupled to the piston, and a shaft coupler having at least two separable portions for removably coupling the lancing shaft to the main shaft. The system can include a lance tool having an insertion portion and a removal portion. A method can include creating a first portion of a vacuum, lancing a surface, and creating a second portion of a vacuum. | 10-03-2013 |
20140171832 | VACUUM ASSISTED LANCING SYSTEM WITH ELECTIVE VACUUM RELEASE AND METHOD FOR BLOOD EXTRACTION WITH MINIMAL PAIN - A vacuum assisted lancing system for blood extraction can include a tubular body having a vacuum chamber, a lancing mechanism configured to removably couple with a lance, a vacuum mechanism including a piston slideably coupled within the body, a release mechanism for selectively holding the vacuum mechanism in an energized state, and an opening for allowing fluid communication between the vacuum chamber and an atmosphere surrounding the vacuum chamber. The system can include means for selectively commencing dissipation of the vacuum and a fixed or adjustable depth controller. A method of manipulating a surface for blood extraction can include coupling the lancing system to the surface, blocking the opening, creating a vacuum, moving the lance coupler from a first position distal from the surface to a second position proximal to the surface, maintaining the vacuum for a period of time, and commencing dissipation of the vacuum by unblocking the opening. | 06-19-2014 |
Patent application number | Description | Published |
20080268603 | TRANSISTOR PERFORMANCE USING A TWO-STEP DAMAGE ANNEAL - A two-step thermal treatment method consists of performing ion implantation in a silicon substrate of the semiconductor device. A first thermal treatment procedure is performed on the semiconductor device. A second thermal treatment procedure is consecutively performed on the semiconductor device to reduce damage produced by the ion implantation. | 10-30-2008 |
20080268627 | TRANSISTOR PERFORMANCE USING A TWO-STEP DAMAGE ANNEAL - A two-step thermal treatment method consists of performing ion implantation in a silicon substrate of the semiconductor device. A first thermal treatment procedure is performed on the semiconductor device. A second thermal treatment procedure is consecutively performed on the semiconductor device to reduce damage produced by the ion implantation. | 10-30-2008 |
20100032801 | CAPACITOR FORMED IN INTERLEVEL DIELECTRIC LAYER - An capacitor is formed in an interlevel dielectric (ILD) layer of the integrated circuit (IC) by etching vertical trenches through the ILD and depositing conformal layers of a bottom electrode metal, a capacitor dielectric and a top electrode metal. The capacitor can attain a capacitance density of 20 nanofarads/mm | 02-11-2010 |
20140339609 | TRANSISTOR PERFORMANCE USING A TWO-STEP DAMAGE ANNEAL - A two-step thermal treatment method consists of performing ion implantation in a silicon substrate of the semiconductor device. A first thermal treatment procedure is performed on the semiconductor device. A second thermal treatment procedure is consecutively performed on the semiconductor device to reduce damage produced by the ion implantation. | 11-20-2014 |
20140342521 | TRANSISTOR PERFORMANCE USING A TWO-STEP DAMAGE ANNEAL - A two-step thermal treatment method consists of performing ion implantation in a silicon substrate of the semiconductor device. A first thermal treatment procedure is performed on the semiconductor device. A second thermal treatment procedure is consecutively performed on the semiconductor device to reduce damage produced by the ion implantation. | 11-20-2014 |
Patent application number | Description | Published |
20100218134 | TECHNIQUES FOR SEMANTIC BUSINESS POLICY COMPOSITION - Embodiments of the present invention relate to techniques for creating policies. A plurality of objects representative of semantic objects are provided to a user. An arrangement of a subset of the objects, the arrangement representative of a policy, is received. The arrangement is converted to instructions for implementation by an application configured to implement policies. One or more of the objects may include fields and/or controls for specifying criteria of semantic objects represented by the objects. | 08-26-2010 |
20110093469 | TECHNIQUES FOR EXTRACTING SEMANTIC DATA STORES - Techniques for enforcing policies. A set of data is stored in one or more data stores. A plurality of semantic concepts for an ontology are defined and a map is constructed from the set of data to the concepts. The map is executed in order to transform data from the set of data to a second set of data. The second set of data is stored according to the ontology. The second set of data is reasoned in order to determine compliance with one or more policies. | 04-21-2011 |
20120030202 | TECHNIQUES FOR ANALYZING DATA FROM MULTIPLE SOURCES - Techniques, including systems are methods, for analyzing data from multiple sources are disclosed and suggested herein. In an embodiment, external information from one or more external information sources and internal information from one or more internal information sources is received. The received external information and internal information are stored in one or more data stores that collectively implement one or more ontologies. One or more conditions are applied to the external information and internal information in the one or more data stores to determine a conclusion and the conclusion is provided to a user. | 02-02-2012 |
20150134551 | TECHNIQUES FOR ANALYZING DATA FROM MULTIPLE SOURCES - Techniques, including systems are methods, for analyzing data from multiple sources are disclosed and suggested herein. In an embodiment, information from one or more information sources is received. The received information is stored in one or more data stores that collectively implement one or more ontologies. One or more conditions are applied to the information in the one or more data stores to determine a conclusion. | 05-14-2015 |
Patent application number | Description | Published |
20080290325 | MEMS Passivation with Phosphonate Surfactants - Phosphonate surfactants are employed to passivate the surfaces of MEMS devices, such as digital micromirror devices. The surfactants are adsorbed from vapor or solution to form self-assembled monolayers at the device surface. The higher binding energy of the phosphonate end groups (as compared to carboxylate surfactants) improves the thermal stability of the resulting layer. | 11-27-2008 |
20090168136 | SOLID-STATE OPTICAL MODULATOR - A spatial light modulator comprises a solid-state chiral material disposed between electrodes such that the polarization direction of the polarized light incident thereto can be controlled through an electrical field established between the electrodes. | 07-02-2009 |
20090231673 | MULTILAYERED DEFORMABLE ELEMENT WITH REDUCED MEMORY PROPERTIES IN A MEMS DEVICE - A deformable element for use in microelectromechanical systems comprises a core layer and a protective layer. The protective layer is capable of deterring combinations of undesired chemical components in operational environments with the core layer of the deformable element. | 09-17-2009 |
20100025832 | REDUCED STICTION AND MECHANICAL MEMORY IN MEMS DEVICES - A MEMS device is packaged in a process which hydrogen (H) deuterium (D) for reduced stiction. H is exchanged with D by exposing the MEMS device with a deuterium source, such as deuterium gas or heavy water vapor, optionally with the assistance of a direct or downstream plasma. | 02-04-2010 |
20100165314 | MEMS DEVICE WITH CONTROLLED GAS SPACE CHEMISTRY - A process for protecting a MEMS device used in a UV illuminated application from damage due to a photochemical activation between the UV flux and package gas constituents, formed from the out-gassing of various lubricants and passivants put in the device package to prevent sticking of the MEMS device's moving parts. This process coats the exposed surfaces of the MEMS device and package's optical window surfaces with a metal-halide film to eliminate this photochemical activation and therefore significantly extend the reliability and lifetime of the MEMS device. | 07-01-2010 |
20110294305 | Antireflective Coating - Device and method for an antireflective coating to improve image quality in an image display system. A preferred embodiment comprises a first high refractive index layer overlying a reflective surface of an integrated circuit, a first low refractive index layer overlying the first high refractive index layer, a second high refractive index layer overlying the first low refractive index layer, and a second low refractive index layer overlying the second high refractive index layer. The alternating layers of high refractive index material and low refractive index material form an optical trap, allowing light to readily pass through in one direction, but not so easily in a reverse direction. The dual alternating layer topology improves the antireflective properties of the antireflective layer and permits a wide range of adjustments for manipulating reflectivity and color point. | 12-01-2011 |
20140167295 | COATINGS FOR RELATIVELY MOVABLE SURFACES - A device comprises a MEMS component comprising at least one surface and a coating disposed on at least a portion of the surface. The coating comprises a compound of the formula M(C | 06-19-2014 |
20140329392 | COATINGS FOR RELATIVELY MOVABLE SURFACES - A device has a microelectromechanical system (MEMS) component with at least one surface and a coating disposed on at least a portion of the surface. The coating has a compound of the formula M(CnF2n+1Or), wherein M is a polar head group and wherein n≧2r. The value of n may range from 2 to about 20, and the value of r may range from 1 to about 10. The value of n plus r may range from 3 to about 30, and a ratio of n:r may have a value of about 2:1 to about 20:1. | 11-06-2014 |
20160060108 | COATINGS FOR RELATIVELY MOVABLE SURFACES - A device has a microelectromechanical system (MEMS) component with at least one surface and a coating disposed on at least a portion of the surface. The coating has a compound of the formula M(CnF2n+1Or), wherein M is a polar head group and wherein n≧2r. The value of n may range from 2 to about 20, and the value of r may range from 1 to about 10. The value of n plus r may range from 3 to about 30, and a ratio of n:r may have a value of about 2:1 to about 20:1. | 03-03-2016 |