Patent application number | Description | Published |
20080211524 | Electrochemically Fabricated Microprobes - Multilayer probe structures for testing semiconductor die are electrochemically fabricated via depositions of one or more materials in a plurality of overlaying and adhered layers. In some embodiments the structures may include generally helical shaped configurations, helical shape configurations with narrowing radius as the probe extends outward from a substrate, bellows-like configurations, and the like. In some embodiments arrays of multiple probes are provided. | 09-04-2008 |
20090066351 | ELECTROCHEMICALLY FABRICATED MICROPROBES - Multilayer test probe structures are electrochemically fabricated via depositions of one or more materials in a plurality of overlaying and adhered layers. In some embodiments each probe structure may include a plurality of contact arms or contact tips that are used for contacting a specific pad or plurality of pads wherein the arms and/or tips are configured in such away so as to provide a scrubbing motion (e.g. a motion perpendicular to a primary relative movement motion between a probe carrier and the IC) as the probe element or array is made to contact an IC, or the like, and particularly when the motion between the probe or probes and the IC occurs primarily in a direction that is perpendicular to a plane of a surface of the IC. In some embodiments arrays of multiple probes are provided and even formed in desired relative position simultaneously. | 03-12-2009 |
20090068460 | Multi-Layer Three-Dimensional Structures Having Features Smaller Than a Minimum Feature Size Associated With the Formation of Individual Layers - Embodiments of multi-layer three-dimensional structures and formation methods provide structures with effective feature (e.g. opening) sizes (e.g. virtual gaps) that are smaller than a minimum feature size (MFS) that exists on each layer as a result of the formation method used in forming the structures. In some embodiments, multi-layer structures include a first element (e.g. first patterned layer with a gap) and a second element (e.g. second patterned layer with a gap) positioned adjacent the first element to define a third element (e.g. a net gap or opening resulting from the combined gaps of the first and second elements) where the first and second elements have features that are sized at least as large as the minimum feature size and the third element, at least in part, has dimensions or defines dimensions smaller than the minimum feature size. | 03-12-2009 |
20090197371 | Integrated Circuit Packaging Using Electrochemically Fabricated Structures - Embodiments of the invention provide methods for packaging integrated circuits and/or other electronic components with electrochemically fabricated structures which include conductive interconnection elements. In some embodiments the electrochemically produced structures are fabricated on substrates that include conductive vias while in other embodiments, the substrates are solid blocks of conductive material, or conductive material containing passages that allow the flow of fluid to maintain desired thermal properties of the packaged electronic components. | 08-06-2009 |
20090256583 | Vertical Microprobes for Contacting Electronic Components and Method for Making Such Probes - Multilayer probe structures for testing or otherwise making electrical contact with semiconductor die or other electronic components are electrochemically fabricated via depositions of one or more materials in a plurality of overlaying and adhered layers. In some embodiments the structures may include configurations intended to enhance functionality, buildability, or both. | 10-15-2009 |
20100033202 | Cantilever Microprobes for Contacting Electronic Components and Methods for Making Such Probes - Embodiments disclosed herein are directed to compliant probe structures for making temporary or permanent contact with electronic circuits and the like. In particular, embodiments are directed to various designs of two-part probe elements, socket-able probes and their mounts. Some embodiments are directed to methods for fabricating such probes and mounts. In some embodiments, for example, probes have slide in mounting structures, twist in mounting structures, mounting structures that include compliant elements, and the like. | 02-11-2010 |
20100094320 | Atherectomy and Thrombectomy Devices, Methods for Making, and Procedures for Using - Embodiments are directed to devices for removing material from interior walls of vessels such as during atherectomy or thrombectomy procedures where the devices includes an ablation tool and at least one ablation tool stabilizer that can be used to radially position the ablation tool at desired locations within a vessel. In some embodiments, the ablation tool may a rotary cutting element that has an axis of rotation that is approximately parallel to the local axis of a vessel to be cleared. In some embodiments, the ablation tool may have a single side and or a top that allows clearing of material and which is capable of both radial positioning and rotational positioning via the stabilization device or devices and which may also be capable of axial motion via the stabilization device. | 04-15-2010 |
20100121307 | Microneedles, Microneedle Arrays, Methods for Making, and Transdermal and/or Intradermal Applications - Embodiments are directed to microneedle array devices for intradermal and/or transdermal interaction with the body of patient to provide therapeutic, diagnostic or preventative treatment wherein portions of the devices may be formed by multi-layer, multi-material electrochemical fabrication methods and wherein individual microneedles may include valve elements or other elements for controlling interaction (e.g. fluid flow). In some embodiments needles are retractable and extendable from a surface of the device. In some embodiments, interaction occurs automatically with movement across the skin of the patient while in other embodiments interaction is controlled by an operator (e.g. doctor, nurse, technician, or patient). | 05-13-2010 |
20100133109 | Electrochemically Fabricated Hermetically Sealed Microstructures and Methods of and Apparatus for Producing Such Structures - In some embodiments, multilayer structures are electrochemically fabricated from at least one structural material (e.g. nickel), at least one sacrificial material (e.g. copper), and at least one sealing material (e.g. solder). In some embodiments, the layered structure is made to have a desired configuration which is at least partially and immediately surrounded by sacrificial material which is in turn surrounded almost entirely by structural material. The surrounding structural material includes openings in the surface through which etchant can attack and remove trapped sacrificial material found within. Sealing material is located near the openings. After removal of the sacrificial material, the box is evacuated or filled with a desired gas or liquid. Thereafter, the sealing material is made to flow, seal the openings, and resolidify. In other embodiments, a post-layer formation lid or other enclosure completing structure is added. | 06-03-2010 |
20100134131 | Electrochemically Fabricated Microprobes - Multilayer probe structures for testing semiconductor die are electrochemically fabricated via depositions of one or more materials in a plurality of overlaying and adhered layers. In some embodiments the structures may include generally helical shaped configurations, helical shape configurations with narrowing radius as the probe extends outward from a substrate, bellows-like configurations, and the like. In some embodiments arrays of multiple probes are provided. | 06-03-2010 |
20100136851 | Fabrication Process for Co-Fabricating a Multilayer Probe Array and a Space Transformer - Embodiments of the invention provide electrochemical fabrication processes that may be used for the fabrication of space transformers or the co-fabrication of microprobe arrays along with one or more space transformers. | 06-03-2010 |
20100155253 | Microprobe Tips and Methods for Making - Embodiments of the present invention are directed to the formation of microprobe tips elements having a variety of configurations. In some embodiments tips are formed from the same building material as the probes themselves, while in other embodiments the tips may be formed from a different material and/or may include a coating material. In some embodiments, the tips are formed before the main portions of the probes and the tips are formed in proximity to or in contact with a temporary substrate. Probe tip patterning may occur in a variety of different ways, including, for example, via molding in patterned holes that have been isotropically or anisotropically etched silicon, via molding in voids formed in exposed photoresist, via molding in voids in a sacrificial material that have formed as a result of the sacrificial material mushrooming over carefully sized and located regions of dielectric material, via isotropic etching of the tip material around carefully sized and placed etching shields, via hot pressing, and the like. | 06-24-2010 |
20110031183 | Multi-Layer Three-Dimensional Structures Having Features Smaller Than a Minimum Feature Size Associated With the Formation of Individual Layers - Embodiments of multi-layer three-dimensional structures and formation methods provide structures with effective feature (e.g. opening) sizes (e.g. virtual gaps) that are smaller than a minimum feature size (MFS) that exists on each layer as a result of the formation method used in forming the structures. In some embodiments, multi-layer structures include a first element (e.g. first patterned layer with a gap) and a second element (e.g. second patterned layer with a gap) positioned adjacent the first element to define a third element (e.g. a net gap or opening resulting from the combined gaps of the first and second elements) where the first and second elements have features that are sized at least as large as the minimum feature size and the third element, at least in part, has dimensions or defines dimensions smaller than the minimum feature size. | 02-10-2011 |
20110092988 | Microdevices for Tissue Approximation and Retention, Methods for Using, and Methods for Making - Embodiments of invention are directed to micro-scale of mesoscale tissue approximation instruments that may be delivered to the body of a patient during minimally invasive or other surgical procedures. In one group of embodiments, the instrument has an elongated (longitudinal) configuration while with two sets of expandable wings that each have a toggle configuration that can be made to expand when located on opposite sides of a distal tissue region and a proximal tissue region and can then be made to move toward one another to bring the two tissue regions into more a proximal position. In some embodiments, multiple tissue approximation instruments are located within a delivery system for sequential delivery to a patient's body. | 04-21-2011 |
20110198281 | Multi-Layer Three-Dimensional Structures Having Features Smaller Than a Minimum Feature Size Associated With the Formation of Individual Layers - Embodiments of multi-layer three-dimensional structures and formation methods provide structures with effective feature (e.g. opening) sizes (e.g. virtual gaps) that are smaller than a minimum feature size (MFS) that exists on each layer as a result of the formation method used in forming the structures. In some embodiments, multi-layer structures include a first element (e.g. first patterned layer with a gap) and a second element (e.g. second patterned layer with a gap) positioned adjacent the first element to define a third element (e.g. a net gap or opening resulting from the combined gaps of the first and second elements) where the first and second elements have features that are sized at least as large as the minimum feature size and the third element, at least in part, has dimensions or defines dimensions smaller than the minimum feature size. | 08-18-2011 |
20120128998 | Multi-Layer Three-Dimensional Structures Having Features Smaller Than a Minimum Feature Size Associated With the Formation of Individual Layers - Embodiments of multi-layer three-dimensional structures and formation methods provide structures with effective feature (e.g. opening) sizes (e.g. virtual gaps) that are smaller than a minimum feature size (MFS) that exists on each layer as a result of the formation method used in forming the structures. In some embodiments, multi-layer structures include a first element (e.g. first patterned layer with a gap) and a second element (e.g. second patterned layer with a gap) positioned adjacent the first element to define a third element (e.g. a net gap or opening resulting from the combined gaps of the first and second elements) where the first and second elements have features that are sized at least as large as the minimum feature size and the third element, at least in part, has dimensions or defines dimensions smaller than the minimum feature size. | 05-24-2012 |
20120137497 | Electrochemical Fabrication Method Including Elastic Joining of Structures - Embodiments are directed to methods for forming multi-layer three-dimensional structures involving the joining of at least two structural elements, at least one of which is formed as a multi-layer three-dimensional structure, wherein the joining occurs via one of: (1) elastic deformation and elastic recovery and subsequent retention of elements relative to each other, (2) relative deformation of an initial portion of at least one element relative to another portion of the at least one element until the at least two elements are in a desired retention position after which the deformation is reduced or eliminated and a portion of at least one element is brought into position which in turn locks the at least two elements together via contact with one another including contact with the initial portion of at least one element, or (3) moving a retention region of one element into the retention region of the other element, without deformation of either element, along a path including a loading region of the other element and wherein during normal use the first and second elements are configured relative to one another so that the loading region of the second elements is not accessible to the retention region of the first element. | 06-07-2012 |
20120191121 | CONCENTRIC CUTTING DEVICES FOR USE IN MINIMALLY INVASIVE MEDICAL PROCEDURES - Various embodiments of a tissue cutting device are described, such as a device with an elongate tube having a proximal end and a distal end and a central axis extending from the proximal end to the distal end; a first annular element at the distal end of the elongate tube, the first annular element having a flat portion at its distal end perpendicular to the central axis, the flat portion extending from an outer circumference of the first annular element to the central axis; and a second annular element at the distal end of the elongate tube and concentric with the first annular element, the second annular element having a flat portion at its distal end perpendicular to the central axis, at least one of the first or second annular elements rotatable about the central axis, the rotation causing the first annular element and the second annular element to pass each other to shear tissue. | 07-26-2012 |
20130045774 | Smart Phone Writing Method and Apparatus - Embodiments are directed to apparatus, methods and systems for capturing and using writing or drawing motions made while holding a handheld electronic device (e.g. smart phone) that include one or more of a variety of sensors (e.g. inertial sensors, touch sensors, pressure sensors, optical sensors, and the like). The writing or drawing movements are processed into writing or drawing data that may be used as communication data or as verification data when compared to previously recorded data. | 02-21-2013 |
20130047268 | Methods for Using Biometric Authentication Methods for Securing Files and for Providing Secure Access to Such Files by Originators and/or Authorized Others - Embodiments are directed to apparatus, methods and systems for locking data or program files and for allowing access to such files only by individuals given authorization and wherein the identity of locking or accessing individuals is provided by comparison of collected inertial information associated with providing a signature with information stored about the particular individuals. In a first embodiment two primary components work together to provide collection of inertial data (and potentially other data) and then comparing of the collected data to stored data to provide an authentication or identification assessment. The first of these components is a SigzaPen device for acquiring data while the second is a remote Signature Processing Center (“SPC”) wherein these two components are capable of communicating directly or indirectly with each other. | 02-21-2013 |
20140066700 | Stereoscopic System for Minimally Invasive Surgery Visualization - Embodiments of the present invention provide improved visualization systems and methods for minimally invasive surgery. Some embodiments include the use of reverse kinematic positioning of camera systems to provide rapid and manual surgeon controllable positioning of camera systems as well as display of 3D surgical area images along the line of sight between a surgeon's eyes and the surgical area itself. | 03-06-2014 |
20140066701 | METHOD FOR MINIMALLY INVASIVE SURGERY STEROSCOPIC VISUALIZATION - Aspects of the present invention provide improved visualization systems and methods for minimally invasive surgery. Some embodiments include the use of reverse kinematic positioning of camera systems to provide rapid and manual surgeon controllable positioning of camera systems as well as display of 3D surgical area images along the line of sight between a surgeon's eyes and the surgical area itself. | 03-06-2014 |
20140066703 | STEREOSCOPIC SYSTEM FOR MINIMALLY INVASIVE SURGERY VISUALIZATION - Embodiments of the invention are directed to minimally invasive surgical instruments and procedures using those instruments wherein the instruments include optical elements (e.g. a percutaneous optical channel (POC), a retaining plug and a stereoscopic imaging device (e.g. a stereoscopic camera) and a stereoscopic display device. The instruments be part of a system used to provide a surgeon with an indirect stereoscopic view of a surgical area undergoing a minimally invasive surgical procedure in a way that is perceived by the surgeon as being similar to that of an open surgery and providing a natural and intuitive environment to perform the surgery with a high degree of control. | 03-06-2014 |
20140066704 | STEREOSCOPIC METHOD FOR MINIMALLY INVASIVE SURGERY VISUALIZATION - Embodiments of the invention are directed to minimally invasive surgical instruments and procedures using those instruments wherein the instruments include optical elements (e.g. a percutaneous optical channel (POC), a retaining plug and a stereoscopic imaging device (e.g. a stereoscopic camera) and a stereoscopic display device. The instruments be part of a system used to provide a surgeon with an indirect stereoscopic view of a surgical area undergoing a minimally invasive surgical procedure in a way that is perceived by the surgeon as being similar to that of an open surgery and providing a natural and intuitive environment to perform the surgery with a high degree of control. | 03-06-2014 |
20140163596 | CONCENTRIC CUTTING DEVICES FOR USE IN MINIMALLY INVASIVE MEDICAL PROCEDURES - Various embodiments of a tissue cutting device are described, such as a device with an elongate tube having a proximal end and a distal end and a central axis extending from the proximal end to the distal end; a first annular element at the distal end of the elongate tube, the first annular element having a flat portion at its distal end perpendicular to the central axis; and a second annular element at the distal end of the elongate tube and concentric with the first annular element, the second annular element having a flat portion at its distal end perpendicular to the central axis, at least one of the first or second annular elements rotatable about the central axis, the rotation causing the first annular element and the second annular element to pass each other to shear tissue. | 06-12-2014 |
20140187857 | Apparatus and Methods for Enhanced Visualization and Control in Minimally Invasive Surgery - Embodiments of the present invention provide improved visualization systems and methods for minimally invasive surgery. Some embodiments include the use of reverse kinematic positioning of camera systems to provide rapid and manual surgeon controllable positioning of camera systems as well as display of 3D surgical area images along the line of sight between a surgeon's eyes and the surgical area itself. | 07-03-2014 |