Patent application number | Description | Published |
20100039747 | ELECTROSTATIC CHUCK ASSEMBLY - Embodiments of the present invention provide a cost effective electrostatic chuck assembly capable of operating over a wide temperature range in an ultra-high vacuum environment while minimizing thermo-mechanical stresses within the electrostatic chuck assembly. In one embodiment, the electrostatic chuck assembly includes a dielectric body having chucking electrodes which comprise a metal matrix composite material with a coefficient of thermal expansion (CTE) that is matched to the CTE of the dielectric body. | 02-18-2010 |
20100065216 | RING ASSEMBLY FOR SUBSTRATE PROCESSING CHAMBER - An isolator ring is provided for a substrate support used in a substrate processing chamber. The substrate support comprises an annular ledge having a circumferential edge, and an inner perimeter sidewall. The isolator ring comprises an L-shaped dielectric ring comprising a laser textured surface; a horizontal leg capable of resting on the annular ledge of the support, and having a length that extends radially outward and stops short of the circumferential edge of the annular ledge; and a vertical leg abutting the inner perimeter sidewall of the support. A ring assembly includes the isolator ring and a deposition ring. | 03-18-2010 |
20120033340 | ELECTROSTATIC CHUCK AND METHODS OF USE THEREOF - An electrostatic chuck and method of use thereof is provided herein. In some embodiments, an electrostatic chuck may include a disk having a first side to support a substrate thereon and a second side, opposing the first side, to provide an interface to selectively couple the disk to a thermal control plate, a first electrode disposed within the disk proximate the first side to electrostatically couple the substrate to the disk and a second electrode disposed within the disk proximate the opposing side of the disk to electrostatically couple the disk to the thermal control plate. In some embodiments, the second electrode may also be configured to heat the disk. | 02-09-2012 |
20130088808 | ELECTROSTATIC CHUCK - Embodiments of electrostatic chucks are provided herein. In some embodiments, an electrostatic chuck for retaining a substrate includes a base plate, a ceramic plate, supported by the base plate, having a substrate supporting surface, a first plurality of electrodes disposed within the ceramic plate having a first polarity, and a second plurality of electrodes disposed within the ceramic plate have a second polarity opposite from the first polarity, wherein the first and second plurality of electrodes are independently controllable to provide a desired chucking power and frequency. | 04-11-2013 |
20130088809 | ELECTROSTATIC CHUCK WITH TEMPERATURE CONTROL - Embodiments of an apparatus for controlling a temperature of an electrostatic chuck in a process chamber are provided herein. In some embodiments, the apparatus includes an electrostatic chuck disposed in a process chamber, the electrostatic chuck including a ceramic plate having a substrate supporting surface, and a cooling assembly including a plurality of cooling plates disposed below the electrostatic chuck to adjust the cooling capacity of the electrostatic chuck. In some embodiments, the plurality of cooling plates includes an inner cooling plate configured to control a temperature of a center portion of the electrostatic chuck, and an outer cooling plate configured to control a temperature of an outer portion of the electrostatic chuck. In some embodiments, the plurality of cooling plates includes an upper cooling plate that contacts a bottom surface of the electrostatic chuck, and a lower cooling plate which contacts a bottom surface of the upper cooling plate. | 04-11-2013 |
20140044503 | LINKED VACUUM PROCESSING TOOLS AND METHODS OF USING THE SAME - In some embodiments, a linked processing tool system is provided that includes (1) a first processing tool having at least a first transfer chamber configured to couple to a plurality of processing chambers; (2) a second processing tool having at least a second transfer chamber configured to couple to a plurality of processing chambers; (3) a third transfer chamber coupled between the first and second processing tools and configured to transfer substrates between the first and second processing tools; and (4) a single sequencer that controls substrate transfer operations between the first processing tool, the second processing tool and the third transfer chamber of the linked processing tool system. Numerous other aspects are provided. | 02-13-2014 |
20150036259 | IN-SITU REMOVABLE ELECTROSTATIC CHUCK - Embodiments described herein generally relate to an electrostatic chuck (ESC). The ESC may contain a first plurality of electrodes adapted to electrostatically couple a substrate to the ESC and a second plurality of electrodes adapted to electrostatically couple the ESC to a substrate support. Instead of being integrally disposed within the substrate support, the ESC may be easily removed from the substrate support and removed from a chamber for maintenance or replacement purposes. | 02-05-2015 |
20150078874 | COMPLIANT ROBOT BLADE FOR DEFECT REDUCTION - Embodiments of substrate transfer robot blades to engage and support a substrate during transfer are provided herein. In some embodiments, a substrate transfer robot may include a blade body having a blade support surface; and a plurality of compliant pads, each comprising a contact surface and an opposite bottom surface supported by the body and arranged to support a substrate when disposed on the substrate transfer robot blade. | 03-19-2015 |