Patent application number | Description | Published |
20110290283 | CLOSED CHAMBER WITH FLUID SEPARATION FEATURE - Selective recovery of excess process fluid from within a closed process chamber is achieved by providing a magnetically drive ring chuck and at least one process fluid collector within the closed process chamber, with the ring chuck and the fluid collector being vertically movable relative to each other. | 12-01-2011 |
20130062839 | APPARATUS FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES - A device for processing wafer-shaped articles comprises a closed process chamber. The closed process chamber comprises a housing providing a gas-tight enclosure, a rotary chuck located within the closed process chamber and adapted to hold a wafer shaped article thereon, and an interior cover disposed within said closed process chamber. The interior cover is movable between a first position in which the rotary chuck communicates with an outer wall of the closed process chamber, and a second position in which the interior cover seals against an inner surface of the closed process chamber adjacent the rotary chuck to define a gas-tight inner process chamber. | 03-14-2013 |
20130101372 | METHOD AND APPARATUS FOR PROCESSING WAFER-SHAPED ARTICLES - A device for processing wafer-shaped articles comprises a closed process chamber. The closed process chamber has a side wall, a holder located within the closed process chamber adapted to receive a wafer shaped article, and a door for loading and unloading a wafer shaped article into and from the closed process chamber. The door in a first position blocks an opening in the side wall of the chamber and seals against an interior surface of the side wall of the chamber. The door is connected to an exterior of the chamber via a linkage that guides the door in a nonlinear translational movement between the first position and a second position in which the door is positioned interiorly of the chamber so as to permit loading and unloading of a wafer shaped article through the opening. | 04-25-2013 |
20130134128 | DEVICE AND METHOD FOR TREATING WAFER-SHAPED ARTICLES - A method and device for processing wafer-shaped articles comprises a closed process chamber. A rotary chuck is located within the process chamber, and is adapted to hold a wafer shaped article thereon. An interior fluid distribution ring is positioned above the rotary chuck, and comprises an annular surface inclined downwardly from a radially inner edge to a radially outer edge thereof. At least one fluid distribution nozzle extends into the closed process chamber and is positioned so as to discharge fluid onto the annular surface of the fluid distribution ring. | 05-30-2013 |
20130154203 | DEVICE FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES AND GRIPPING PIN FOR USE IN THE DEVICE - A device for processing wafer-shaped articles comprises a rotary chuck having a series of pins adapted to hold a wafer shaped article on the rotary chuck. Each of the pins comprises a cylindrical body and a projecting gripping portion formed integrally therewith. The cylindrical body and gripping portion are made from a ceramic material. The gripping portion comprises cylindrical surfaces having a common generatrix with surfaces of the cylindrical body. | 06-20-2013 |
20130160260 | APPARATUS FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES - A device and method for processing wafer-shaped articles comprises a process chamber and a rotary chuck located within the process chamber. The rotary chuck is adapted to be driven without physical contact through a magnetic bearing. The rotary chuck comprises a series of gripping pins adapted to hold a wafer shaped article in a position depending downwardly from the rotary chuck. The rotary chuck further comprises a plate that rotates together with the rotary chuck. The plate is positioned above an area occupied by the wafer-shaped article, and shields upper surfaces of the process chamber from liquids flung off of a wafer-shaped article during use of the rotary chuck. | 06-27-2013 |
20130309048 | APPARATUS AND METHOD FOR TRANSPORTING WAFER-SHAPED ARTICLES - An apparatus for transporting a wafer-shaped article, comprises a holder configured to hold a wafer-shaped article of a predetermined diameter, attached to a robot arm that is horizontally movable, via a linkage. The holder is vertically movable relative to the distal end of the robot arm via the linkage from a retracted position to an extended position. | 11-21-2013 |
20130319472 | METHOD AND APPARATUS FOR PROCESSING WAFER-SHAPED ARTICLES - A device and method for treating the surface of a semiconductor wafer provides a treatment fluid in the form of a dispersion of gas bubbles in a treatment liquid generated at acoustic pressures less than those required to induce cavitation in the treatment liquid. A resonator supplies ultrasonic or megasonic energy to the treatment fluid and is configured to create an interference pattern in the treatment fluid comprising regions of pressure amplitude minima and maxima at an interface of the treatment fluid and the semiconductor wafer. The resonator is mounted in the space between the rotary chuck body and a wafer carried in rotation with the chuck body; however, the resonator itself is stationary in relation to rotation of the wafer and chuck body. | 12-05-2013 |
20160027680 | APPARATUS FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES - A device for processing wafer-shaped articles comprises a closed process chamber. The closed process chamber comprises a housing providing a gas-tight enclosure, a rotary chuck located within the closed process chamber and adapted to hold a wafer shaped article thereon, and an interior cover disposed within said closed process chamber. The interior cover is movable between a first position in which the rotary chuck communicates with an outer wall of the closed process chamber, and a second position in which the interior cover seals against an inner surface of the closed process chamber adjacent the rotary chuck to define a gas-tight inner process chamber. | 01-28-2016 |
Patent application number | Description | Published |
20140283994 | APPARATUS FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES - An apparatus for liquid treatment of substrates, comprises a substrate holder and a liquid collector surrounding the substrate holder. The liquid collector comprises a trough for collecting liquid that has been used to treat a substrate. The trough is in fluid communication with a discharge conduit, and the liquid collector further comprising a recessed surface extending from a discharge opening in the trough to an inlet opening of the discharge conduit that is positioned lower than the trough. The discharge opening in the trough has a cross-sectional area that is at least twice as large in cross sectional area than the inlet opening of the discharge conduit. | 09-25-2014 |
20150187624 | APPARATUS FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES - An apparatus for processing wafer-shaped articles comprises a closed process chamber providing a gas-tight enclosure. A rotary chuck is located within the closed process chamber, the rotary chuck being adapted to hold a wafer shaped article thereon. A lid is secured to an upper part of the closed process chamber, the lid comprising an upper plate formed from a composite fiber-reinforced material and a lower plate that faces into the process chamber and is formed from a chemically-resistant plastic. | 07-02-2015 |
20150187629 | APPARATUS FOR TREATING SURFACES OF WAFER-SHAPED ARTICLES - An apparatus for processing wafer-shaped articles comprises a closed process chamber providing a gas-tight enclosure. A rotary chuck is located within the closed process chamber, and is adapted to hold a wafer shaped article thereon. A lid is secured to an upper part of the closed process chamber. The lid comprises an annular chamber, gas inlets communicating with the annular chamber and opening on a surface of the lid facing outwardly of the closed process chamber, and gas outlets communicating with the annular chamber and opening on a surface of the lid facing inwardly of the closed process chamber. | 07-02-2015 |