Patent application number | Description | Published |
20080226428 | Substrate handling chamber with movable substrate carrier loading platform - An apparatus for processing substrates may include a substrate handling chamber having a substrate load port on a side wall, and a movable platform movably engaged with the handling chamber between a first position and a second position. The first position is such that a substrate carrier on the movable platform is inaccessible by a substrate handling robot inside the chamber. The second position is near to the load port such that a substrate carrier on the movable platform is accessible by a substrate handling robot inside the handling chamber. The movable platform is configured to rotate about a generally vertical axis between the first and second positions. | 09-18-2008 |
20090101633 | REACTOR WITH SMALL LINEAR LAMPS FOR LOCALIZED HEAT CONTROL AND IMPROVED TEMPERATURE UNIFORMITY - An arrangement of short linear heat lamps is provided which allows for localized control of temperature nonuniformities in a substrate during semiconductor processing. A reactor includes a substrate holder positioned between a top bank and a bottom bank of linear heat lamps. Alternatively, only one such bank may be provided. At least one of the banks includes lamps of a plurality of different lengths, at least some of the lengths being shorter than a diameter of the substrate holder. In some configurations, the lamps in a bank are disposed substantially parallel to each other in a repeating pattern. In some other configurations, the lamps in a bank are disposed in a radial direction with respect to a vertical axis of the substrate holder. Power output of the short lamps can be adjusted individually or in groups to provide localized control of temperature of the substrate. | 04-23-2009 |
20090110826 | REACTION APPARATUS HAVING MULTIPLE ADJUSTABLE EXHAUST PORTS - A reaction apparatus for a semiconductor fabrication apparatus, wherein the reaction apparatus includes at least two adjustable outlet ports for withdrawing reactant gases from the reaction chamber. Adjustment of the flow rate through each of the outlet ports selectively modifies the flow pattern of the reactant gases within the reaction chamber to maintain a desired flow pattern therewithin, such as a substantially uniform flow over the surface of a substrate being processed, and/or minimization of turbulence within the reactor. | 04-30-2009 |
20090147819 | CALIBRATION OF TEMPERATURE CONTROL SYSTEM FOR SEMICONDUCTOR PROCESSING CHAMBER - Methods and systems for calibrating a temperature control system in a vapor deposition chamber. A temperature sensor senses temperature within a semiconductor processing chamber and generates an output signal. A temperature control system controls a chamber temperature by controlling a heating apparatus based on the output signal. A method includes instructing the control system to target a setpoint temperature, and depositing a layer of material onto a surface in the chamber by a vapor deposition process. A variation of a property of the layer is measured while depositing the layer, the property known to vary cyclically as a thickness of the layer increases. The measured property is allowed to vary cyclically for one or more cycles. If there is a difference between a time period of one or more of the cycles and an expected time period associated with the setpoint temperature, the temperature control system is adjusted based on the difference. | 06-11-2009 |
20090159000 | REDUNDANT TEMPERATURE SENSOR FOR SEMICONDUCTOR PROCESSING CHAMBERS - Systems are provided for measuring temperature in a semiconductor processing chamber. Embodiments provide a multi-junction thermocouple comprising a first junction and a second junction positioned to measure temperature at substantially the same portion of a substrate. A controller may detect failures in the first junction, the second junction, a first wire pair extending from the first junction, or a second wire pair extending from the second junction. The controller desirably responds to a detected failure of the first junction or first wire pair by selecting the second junction and second wire pair. Conversely, the controller desirably responds to a detected failure of the second junction or second wire pair by selecting the first junction and first wire pair. Systems taught herein may permit accurate and substantially uninterrupted temperature measurement despite failure of a junction or wire pair in a thermocouple. | 06-25-2009 |
20100031884 | SUSCEPTOR RING - A one-piece susceptor ring for housing at least one temperature measuring device is provided. The susceptor ring includes a plate having an aperture formed therethrough and a pair of side ribs integrally connected to a lower surface of the plate. The side ribs are located on opposing sides of the aperture. The susceptor ring further includes a bore formed in each of the pair of side ribs. Each bore is configured to receive a temperature measuring device therein. | 02-11-2010 |
20100089314 | SUBSTRATE SUPPORT SYSTEM FOR REDUCED AUTODOPING AND BACKSIDE DEPOSITION - A substrate support system comprises a substrate holder having a plurality of passages extending between top and bottom surfaces thereof. The substrate holder supports a peripheral portion of the substrate backside so that a thin gap is formed between the substrate and the substrate holder. A hollow support member provides support to an underside of, and is configured to convey gas upward into one or more of the passages of, the substrate holder. The upwardly conveyed gas flows into the gap between the substrate and the substrate holder. Depending upon the embodiment, the gas then flows either outward and upward around the substrate edge (to inhibit backside deposition of reactant gases above the substrate) or downward through passages of the substrate holder, if any, that do not lead back into the hollow support member (to inhibit autodoping by sweeping out-diffused dopant atoms away from the substrate backside). | 04-15-2010 |
20100107973 | SELF-CENTERING SUSCEPTOR RING ASSEMBLY - A self-centering susceptor ring assembly is provided. The susceptor ring assembly includes a susceptor ring support member and a susceptor ring supported on the susceptor ring support member. The susceptor ring support member includes at least three pins extending upwardly relative to the lower inner surface of the reaction chamber. The susceptor ring includes at least three detents formed in a bottom surface to receive the pins from the susceptor ring support member. The detents are configured to allow the pins to slide therewithin while the susceptor ring thermally expands and contracts, wherein the detents are sized and shaped such that as the susceptor ring thermally expands and contracts the gap between the susceptor ring and the susceptor located within the aperture of the susceptor ring remains substantially uniform about the entire circumference of the susceptor, and thereby maintains the same center axis. | 05-06-2010 |
20100145547 | THERMOCOUPLE - A thermocouple for use in a semiconductor processing reaction is described. The thermocouple includes a sheath having a measuring tip and an opening at the opposing end. A support member that receives a portion of a first wire and a second wire is received within the sheath. The first and second wires form a junction that contacts the inner surface of the sheath at the measuring tip. A spacing member is secured at the opening of the sheath and receives the support member. The spacing member allows the support member, first wire, and second wire to freely thermally expand relative to each other without introducing compression or tension stresses therein. | 06-10-2010 |
20100190343 | LOAD LOCK HAVING SECONDARY ISOLATION CHAMBER - A load lock includes a chamber including an upper portion, a lower portion, and a partition between the upper portion and the lower portion, the partition including an opening therethrough. The load lock further includes a first port in communication with the upper portion of the chamber and a second port in communication with the lower portion of the chamber. The load lock includes a rack disposed within the chamber and a workpiece holder mounted on a first surface of the rack, wherein the rack and the workpiece holder are movable by an indexer that is capable of selectively moving wafer slots of the rack into communication with the second port. The indexer can also move the rack into an uppermost position, at which the first surface of the boat and the partition sealingly separate the upper portion and the lower portion to define an upper chamber and a lower chamber. Auxiliary processing, such as wafer pre-cleaning, or metrology can be conducted in the upper portion. | 07-29-2010 |
20100284438 | Thermocouple - A thermocouple having at least one inner alignment feature or at least one outer alignment feature, or a combination thereof for positively positioning and aligning at least one thermocouple junction within a bore formed in a susceptor ring of a semiconductor substrate processing reactor. The outer alignment feature is configured to positively align the junction(s) longitudinally within the bore. The inner alignment feature configured to positively position the junction(s) rotationally within the sheath of the thermocouple relative to the bore. | 11-11-2010 |
20120031340 | REACTION APPARATUS HAVING MULTIPLE ADJUSTABLE EXHAUST PORTS - A reaction apparatus for a semiconductor fabrication apparatus, wherein the reaction apparatus includes at least two adjustable outlet ports for withdrawing reactant gases from the reaction chamber. Adjustment of the flow rate through each of the outlet ports selectively modifies the flow pattern of the reactant gases within the reaction chamber to maintain a desired flow pattern therewithin, such as a substantially uniform flow over the surface of a substrate being processed, and/or minimization of turbulence within the reactor. | 02-09-2012 |
20120310440 | THERMOCOUPLE - A thermocouple for use in a semiconductor processing reaction is described. The thermocouple includes a sheath having a measuring tip and an opening at the opposing end. A support member that receives a portion of a first wire and a second wire is received within the sheath. The first and second wires form a junction that contacts the inner surface of the sheath at the measuring tip. A spacing member is secured at the opening of the sheath and receives the support member. The spacing member allows the support member, first wire, and second wire to freely thermally expand relative to each other without introducing compression or tension stresses therein. | 12-06-2012 |
20140338596 | SELF-CENTERING SUSCEPTOR RING ASSEMBLY - A self-centering susceptor ring assembly is provided. The susceptor ring assembly includes a susceptor ring support member and a susceptor ring supported on the susceptor ring support member. The susceptor ring support member includes at least three pins extending upwardly relative to the lower inner surface of the reaction chamber. The susceptor ring includes at least three detents formed in a bottom surface to receive the pins from the susceptor ring support member. The detents are configured to allow the pins to slide therewithin while the susceptor ring thermally expands and contracts, wherein the detents are sized and shaped such that as the susceptor ring thermally expands and contracts the gap between the susceptor ring and the susceptor located within the aperture of the susceptor ring remains substantially uniform about the entire circumference of the susceptor, and thereby maintains the same center axis. | 11-20-2014 |