Patent application number | Description | Published |
20090020590 | PROCESS FOR MAKING INTERCONNECT SOLDER Pb-FREE BUMPS FREE FROM ORGANO-TIN/TIN DEPOSITS ON THE WAFER SURFACE - A method is provided for making of interconnect solder bumps on a wafer or other electronic device without depositing any significant amount of tin or other solder component from the solder onto the wafer surface which tin can cause shorts or other defects in the wafer. The method is particularly useful for well-known C4NP interconnect technology. In one aspect of the invention, a reducing gas flow rate is used to remove oxides from the solder surfaces and wafer pad surfaces and is of a sufficient determined or pre-determined flow and/or chamber or mold/wafer spacing to provide a gas velocity across the solder surfaces and wafer pad surfaces so that Sn or other contaminants do not deposit on the wafer surface during solder transfer. In another aspect, the transfer contact is performed below the melting point of the solder and subsequently heated to above the melting temperature while in transfer contact. The heated solder in contact with the wafer pads is transferred to the wafer pads. | 01-22-2009 |
20090242614 | METHOD AND TOOL FOR REPOSITIONING SOLDER FILL HEAD - A tool and method is provided for repositioning a solder injection head. The tool includes a first moveable platform positioned on a first side of a workpiece chuck and a second moveable platform positioned on a second side of the workpiece chuck. A solder injection head has a seal configured to seal molten solder within the solder injection head when contacting a surface of the first moveable platform or the second moveable platform. The method includes moving a workpiece chuck and a starting platform to a position such that the starting platform is at a finishing position and a finishing platform is in a starting position. | 10-01-2009 |
20110049759 | VACUUM TRANSITION FOR SOLDER BUMP MOLD FILLING - A bond metal injection tool can include a fill head having a sealed chamber for containing a molten bond metal (e.g., solder) and a gas, and a nozzle for directing a flow of the molten bond metal into cavities in a major surface of a mold. A pressure control device can controllably apply pressure within the chamber to eject the bond metal from the nozzle into the cavities. The pressure control device may also controllably reduce a pressure within the chamber to inhibit the bond metal from being ejected from the nozzle, such as when the fill head is being moved onto the mold surface from a parking location or when the fill head is being moved off the mold surface onto a parking location. | 03-03-2011 |
20150337452 | APPARATUSES, SYSTEMS AND METHODS THAT ALLOW FOR SELECTIVE REMOVAL OF A SPECIFIC METAL FROM A MULTI-METAL PLATING SOLUTION - Disclosed is an apparatus wherein an electric circuit with at least a power source, two electrodes and a plating solution is established. The plating solution comprises a solvent and, dissolved in the solvent, at least a first metal and a second metal. The power source supplies a current to the electric circuit during a plating process. The amount of electric current is above that required to achieve the overpotential for plating the first metal, but below that required to achieve the overpotential for plating the second metal such that only the first metal plates. This apparatus can be implemented, for example, in conjunction with a plating apparatus or an analysis and dosing apparatus of an electrodeposition system. In the case of an analysis and dosing apparatus, additional components further allow for the addition of that specific metal back into the plating solution. Also disclosed herein are associated methods. | 11-26-2015 |
20160115616 | ELECTROPLATING SYSTEM AND METHOD OF USING ELECTROPLATING SYSTEM FOR CONTROLLING CONCENTRATION OF ORGANIC ADDITIVES IN ELECTROPLATING SOLUTION - Electroplating techniques including an electroplating system and a method for using the electroplating system are provided. The electroplating system has: an electroplating apparatus for electroplating a workpiece, the electroplating apparatus has an electroplating tank configured to contain a solution including target organics; a first reservoir configured to receive the solution including the target organics from the electroplating tank, and to hold the solution including the target organics; a foaming mechanism configured to, in the first reservoir, separate the target organics from the solution through foaming action such that the solution with a reduced concentration of the target organics is separated from a foam including the separated target organics; and a diverting mechanism configured to selectively feed the solution with the reduced concentration of the target organics to one of the first reservoir and the electroplating tank of the electroplating apparatus. | 04-28-2016 |
20160115617 | PREVENT AND REMOVE ORGANICS FROM RESERVOIR WELLS - Plating bath and well structures and methods are described to stop the organic compounds present in plating reservoir wells or bath solution from rising, i.e., climbing up the reservoir wall. An electroplating apparatus includes a vessel holding a liquid solution including metal plating material and an organic species, and a method of operating an electroplating apparatus. The apparatus is designed with plating bath and structures and methods to stop the organic compounds present in plating reservoir wells or bath solution from rising, i.e., climbing or wicking up the inner surfaces of reservoir walls, and to wash them back down on a continuous or cyclical basis in order to maintain a concentration of organic compounds in the plating solution within upper and lower specification limits. | 04-28-2016 |
20160115618 | SYSTEM FOR TREATING SOLUTION FOR USE IN ELECTROPLATING APPLICATION AND METHOD FOR TREATING SOLUTION FOR USE IN ELECTROPLATING APPLICATION - Electroplating techniques including a system for treating a solution for use in an electroplating application and a method for using the system are provided. The system can have: a gas dispersing portion configured to treat the solution by dispersing a gas into the solution to control a concentration of a predetermined cation of a metal to be electroplated in the electroplating application; a filter portion configured to treat the solution by filtering the solution to remove a quantity of metal residue; and a circulation mechanism configured to divert the solution to one of a plating tool and a combination of the gas dispersing portion and the filter portion based on a result of an analysis of the solution. | 04-28-2016 |
Patent application number | Description | Published |
20090188042 | HOSPITAL BED - A patient support incorporates a lying surface and at least one siderail on at least one side of the support. The siderails are operable between a raised position, an intermediate position, and a lowered position. When unlocked and urged from the raised position to the intermediate position, a latching mechanism automatically locks the siderails in the intermediate position. When urged from the lowered position to the raised position, the locking mechanism permits the siderails to pass through the intermediate position without locking, and to subsequently lock at the raised position. In the intermediate position, the siderails may define a gap through which a patient can ingress or egress the bed. In the raised and intermediate positions, the siderails may define gaps between each other and/or between the siderails and a headboard and footboard, that are sufficiently small to prevent accidental egress, and sufficiently large to prevent pinching and entrapment. | 07-30-2009 |
20110258779 | HOSPITAL BED - A patient support incorporates a lying surface and at least one siderail on at least one side of the support. The siderails are operable between a raised position, an intermediate position, and a lowered position. The siderails are biased along a first range of motion by a first biasing member, and are biased along a second range of motion by a second biasing member. In the intermediate position, the siderails may define a gap through which a patient can ingress or egress the bed. In the raised and intermediate positions, the siderails may define gaps between each other and/or between the siderails and a headboard and footboard, that are sufficiently small to prevent accidental egress, and sufficiently large to prevent pinching and entrapment. | 10-27-2011 |
Patent application number | Description | Published |
20100324687 | INTERVERTEBRAL IMPLANT WITH A PIVOTING END CAP - Implants sized to be inserted into an intervertebral space between first and second vertebral members. The implants may include a body with opposing first and second ends. An end cap may be connected to the body and include a first side with a contact surface that faces away from the body and is configured to contact against one of the first and second vertebral members when the implant is positioned in the intervertebral space. The end cap may also include a second side that faces towards the body. A connection mechanism may connect the end cap and the body for the end cap to pivot to adjust an angular position of the end cap relative to the body. The body and the end cap may each include locking features that engage together to lock an angular position of the end cap. The locking features may be configured to overlap at each of the angular positions to engage together and maintain the angular position of the end cap relative to the body when the implant is positioned in the intervertebral space. | 12-23-2010 |
20130110241 | PIVOTABLE INTERBODY IMPLANT SYSTEM | 05-02-2013 |
20130158663 | EXPANDABLE INTERBODY IMPLANT AND METHODS OF USE - An intervertebral implant comprises a first component and a second component. The second component includes an actuator and a third component comprises a first ramp and a second ramp axially spaced apart from the first ramp. The third component comprises rails including at least a portion of the ramps. At least one of the ramp portions disposed with the first rail has a first height and at least one of the ramp portions disposed with the second rail has a second height. The first height is greater than the second height. The actuator is engageable with the third component to effect axial translation such that the ramps engage at least one of the components between a first configuration and a second configuration. Methods of use are disclosed. | 06-20-2013 |
20130158664 | EXPANDABLE INTERBODY IMPLANT AND METHODS OF USE - An intervertebral implant is provided. The intervertebral implant comprises a first component comprising an outer tissue engaging surface and an inner surface. A second component is connected to the first component, and is relatively moveable thereform. The second component comprises an outer tissue engaging surface and an inner surface. The second component includes an actuator. A third component is disposed for engagement and is movable relative to the first and second components. The third component comprises at least a first ramp and a second ramp axially spaced apart from the first ramp. The actuator is engageable with the third component to effect axial translation of the wedge such that the ramps engage the inner surface of at least one of the first component and the second component to move the components between a first, collapsed configuration and a second, expanded configuration. Methods of use are disclosed. | 06-20-2013 |
20140024900 | SURGICAL RETRACTOR AND METHOD OF USE - A surgical retractor includes a first member defining a longitudinal axis. The first member includes a blade disposed in spaced apart relation relative to the longitudinal axis and a grip surface. A second member has a blade disposed in spaced apart relation relative to the longitudinal axis and a grip surface. The grip surfaces are configured to be drawn together along the longitudinal axis such that the blades are engageable with tissue and connected with the grip surfaces such that the grip surfaces provide a tactile feedback of the tissue engagement. Systems and methods of use are disclosed. | 01-23-2014 |
20140088714 | EXPANDABLE INTERBODY IMPLANT AND METHODS OF USE - An intervertebral implant comprises a first component and a second component. The second component includes an actuator and a third component comprises a first ramp and a second ramp axially spaced apart from the first ramp. The third component comprises rails including at least a portion of the ramps. At least one of the ramp portions disposed with the first rail has a first height and at least one of the ramp portions disposed with the second rail has a second height. The first height is greater than the second height. The actuator is engageable with the third component to effect axial translation such that the ramps engage at least one of the components between a first configuration and a second configuration. Methods of use are disclosed. | 03-27-2014 |
20150265265 | SURGICAL INSTRUMENTATION AND METHOD - A surgical instrument includes a first member having an inner surface and an outer surface. A second member has an inner surface and an outer surface. At least one of the inner surfaces defines at least one mating element and the outer surfaces are engageable with tissue. The members are relatively movable between a first configuration and a second configuration to space the tissue and define an opening between the members. At least one third member defines at least one mating element engageable with the at least one mating element of the inner surface such that the at least one third member is disposed within the opening. Systems and methods are disclosed. | 09-24-2015 |
20150265320 | SURGICAL INSTRUMENTATION AND METHOD - A surgical instrument includes a first member having an inner surface and an outer surface. A second member has an inner surface and an outer surface. The outer surfaces are engageable with tissue adjacent a spine that defines a longitudinal axis. The members are relatively movable between a first configuration and a second configuration to space the tissue. In the first configuration, the members are disposable between a first position such that the inner surfaces define a substantially oval cavity that defines a major axis substantially aligned with the longitudinal axis and a second position such that the major axis is rotated relative to the longitudinal axis to space psoas tissue. Systems and methods are disclosed. | 09-24-2015 |
20150351922 | PIVOTABLE INTERBODY IMPLANT SYSTEM - An interbody implant system is provided. The interbody implant system includes an implant having an engagement surface and an instrument including a first member and a second member that is movable relative to the first member. The first member is configured to capture the implant and the second member includes an interface configured to engage the engagement surface to releasably lock the implant in at least one orientation relative to the second member. The at least one of the engagement surface and the interface include at least one planar face. Methods of use are disclosed. | 12-10-2015 |
20160067051 | SPINAL IMPLANT SYSTEM AND METHOD - A spinal implant comprises a body including a first vertebral engaging surface and a second vertebral engaging surface. At least one of the surfaces including a posterior linear side and an anterior arcuate side. Systems and methods of use are disclosed. | 03-10-2016 |
20160067056 | SPINAL IMPLANT SYSTEM AND METHOD - A spinal implant comprises a body including a first vertebral engaging surface and a second vertebral engaging surface. The first vertebral engaging surface is rotatable relative to the second vertebral engaging surface. Systems and methods are disclosed. | 03-10-2016 |
20160120660 | EXPANDABLE INTERBODY IMPLANT - An expandable interbody implant adapted for insertion at least into a disc space, between two adjacent vertebrae of a spine. An upper member and a lower member are pivotally connected at least by a drive link. A bone graft storage portion packed with a selected volume of bone growth material. A translational wall is provided between the bone graft storage portion and a trailing end of the implant. An actuator engages the bone graft storage portion, pushing it forward into engagement with the drive link, which pivots upward, moving the upper member upward away from the lower member. Upward movement of the upper member raises the translational wall to a position to assist in retention of the selected volume bone graft material within the hollow portion of the bone graft storage portion. Upward rotation of the drive link brings a face thereof into contact with a front of the bone graft storage portion, thereby retaining near constant volume of the bone graft material. | 05-05-2016 |