Patent application number | Description | Published |
20090068851 | SUSCEPTOR, MANUFACTURING APPARATUS FOR SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD FOR SEMICONDUCTOR DEVICE - A susceptor of the present invention includes an inner susceptor having a diameter smaller than a diameter of a wafer w and a protruding part for placing the wafer w on a surface thereof, and an outer susceptor having an opening in the central portion thereof, a first step section for placing the inner susceptor so as to block the opening and a second step section provided above the first step section for placing the wafer. | 03-12-2009 |
20090239362 | APPARATUS FOR MANUFACTURING SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - An apparatus for manufacturing a semiconductor device, including in a reaction chamber: a rotor provided with a holding member holding a wafer thereon and a heater heating the wafer therein; a rotation drive mechanism; a gas supply mechanism; a gas exhaust mechanism; and a rectifying plate for rectifying the supplied process gas to supply the rectified gas, and including: an annular rectifying fin mounted on a lower portion of the plate, having a larger lower end inside diameter than an upper end inside diameter thereof and downward rectifying gas exhausted in an outer circumferential direction from above the wafer; and a distance control mechanism controlling a vertical distance between the plate and the wafer and a vertical distance between the fin and the rotor top face to be predetermined distances, respectively, thereby providing higher film formation efficiency. | 09-24-2009 |
20100075509 | MANUFACTURING METHOD AND MANUFACTURING APPARATUS FOR SEMICONDUCTOR DEVICE - A manufacturing method for a semiconductor device, including: loading a wafer into a reaction chamber; placing the wafer on a push-up shaft moved up; preheating the wafer under controlling an in-plane temperature distribution of the wafer to be a recess state under a state of placing the wafer on the push-up shaft moved up; lowering the push-up shaft with the wafer kept in the recess state to hold the wafer on a wafer holding member; heating the wafer to a predetermined temperature; rotating the wafer; and supplying a process gas onto the wafer. | 03-25-2010 |
20120184054 | MANUFACTURING APPARATUS AND METHOD FOR SEMICONDUCTOR DEVICE - Provided is a semiconductor manufacturing apparatus including: a reaction chamber including a gas supply inlet and a gas exhaust outlet, and into which a wafer is to be introduced; a process gas supply mechanism that supplies process gas into the reaction chamber from the gas supply inlet of the reaction chamber; a wafer retaining member that is arranged in the reaction chamber and that retains the wafer; a heater that heats the wafer retained by the wafer retaining member to a predetermined temperature; a rotation drive control mechanism that rotates the wafer retaining member together with the wafer; a gas exhaustion mechanism that exhausts gas in the reaction chamber from the gas exhaust outlet of the reaction chamber; and a drain that is disposed at a bottom portion near a wall surface in the reaction chamber and that collects and discharges oily silane that drips from the wall surface. | 07-19-2012 |
20120291697 | MANUFACTURING APPARATUS AND METHOD FOR SEMICONDUCTOR DEVICE - An apparatus for manufacturing a semiconductor device includes an out-heater including a heater element formed in an annular shape with a disconnected portion at one place, a first electrode component connected to a first heater electrode part of the heater element, a second electrode component connected to a second heater electrode part of the heater element, and a base including a first groove in which the first electrode component is fixedly disposed, and a second groove in which the second electrode component is movably disposed and a groove width in a circumferential direction of the heater element is formed such that a width of a second gap formed between a side of the second electrode component and an inner wall of the groove is wider than a width of a first gap formed between a side of the first electrode component and an inner wall of the first groove. | 11-22-2012 |
Patent application number | Description | Published |
20080308036 | VAPOR-PHASE GROWTH APPARATUS AND VAPOR-PHASE GROWTH METHOD - There is provided a vapor-phase growth apparatus which shortens a temperature decrease time of a wafer substrate after an epitaxial growth step to make it easy to realize a high throughput in film formation of an epitaxial layer. The vapor-phase growth apparatus includes a gas supply port formed in a top portion of a reactor, a gas distribution plate arranged in the reactor, a discharge port formed in a bottom portion of the reactor, an annular holder on which a semiconductor wafer is placed to face the gas distribution plate. A separation distance between the gas distribution plate and the annular holder is set such that a cooling gas which flows downward from the gas supply port through the gas distribution plate to decrease the temperature is in a laminar flow state on a surface of the semiconductor wafer or a surface of the annular holder. | 12-18-2008 |
20080311294 | VAPOR-PHASE GROWTH APPARATUS AND VAPOR-PHASE GROWTH METHOD - There is provided a vapor-phase growth apparatus which reduces particle generation and an adhering material in epitaxial growth to make it easy to improve the productivity. The vapor-phase growth apparatus includes a gas supply port formed in a top portion of a reactor, a gas distribution plate arranged in the reactor, a discharge port formed in a bottom portion of the reactor, at a head portion and which covers a side wall of the reactor, an annular holder on which a semiconductor wafer is placed. A separation distance between the gas distribution plate and the annular holder is set such that a film forming gas which flows downward from the gas supply port through the gas distribution plate is in a laminar flow state on a surface of the semiconductor wafer or a surface of the annular holder. | 12-18-2008 |
20090007841 | VAPOR-PHASE GROWING APPARATUS AND VAPOR-PHASE GROWING METHOD - A vapor-phase growing apparatus and a vapor-phase growing method which reduce sticking of a wafer to a holder during vapor-phase growth are provided. In the vapor-phase growing apparatus, a holder arranged in a chamber includes a disk-like member having a recessed portion at the center of a holder or a ring-like member having a recessed portion at a center of a holder and having an opening in a bottom center of the holder. A first projecting portion is arranged on an inner circumference wall surface of the holder, and a second projecting portion is formed on a bottom surface of the recessed portion of the holder. In this manner, the holder can support a wafer with a small contact area. In vapor-phase growth, the wafer can be prevented from sticking to the holder. | 01-08-2009 |
20090139448 | VAPOR PHASE GROWTH APPARATUS ANS VAPOR PHASE GROWTH METHOD - A vapor phase growth apparatus and a vapor phase growth method capable of improving the yield rate of wafers by stopping infiltration of metal contaminants generated below a horizontal disk-like susceptor is provided. The vapor phase growth apparatus according to embodiments of the present invention includes a holder having an annular shape and on which a wafer can be placed, a disk-shaped susceptor on which the holder can be placed and provided on an upper surface thereof with circumferential steps inscribed in inner circumferential edge of the holder when the holder is placed, a rotation driving mechanism for rotating the susceptor and the holder at a predetermined rotational speed, a heating mechanism for heating the wafer placed on the holder, and a wafer push-up mechanism to push up an undersurface of the holder outside the rotation driving mechanism. | 06-04-2009 |
20090194018 | APPARATUS AND METHOD FOR MANUFACTURING EPITAXIAL WAFER - An apparatus for manufacturing an epitaxial wafer, includes: a chamber; a gas inlet provided in the chamber and introducing a reaction gas into the chamber; a gas outlet provided in the chamber and exhausting the reaction gas; a rotator unit provided inside the chamber; a wafer holder provided on an upper portion of the rotator unit and holding a wafer; an inner heater provided inside the rotator unit; and an outer heater provided between the rotator unit and an inner wall of the chamber. | 08-06-2009 |
20100021631 | COATING APPARATUS AND COATING METHOD - In a coating apparatus, a distributor plate | 01-28-2010 |
20110120366 | SUSCEPTOR, FILM FORMING APPARATUS AND METHOD - An outer peripheral portion of the silicon wafer is supported by the first susceptor part. The second susceptor part is a close fit in the opening of the first susceptor part to support a portion other than the outer peripheral portion of the silicon wafer. The second susceptor part comes into contact with the outer peripheral portion of the first susceptor part and is disposed in such a manner that a clearance having a predetermined size is formed between the first susceptor part and the second susceptor part and between the opening and the outer peripheral portion thereof. A gas exiting the clearance, which was expanded by heating, is expelled into the chamber via through holes. | 05-26-2011 |
20110171380 | SUSCEPTOR, COATING APPARATUS AND COATING METHOD USING THE SUSCEPTOR - In accordance with the embodiment of the present invention, there is provided a susceptor which includes an annular first susceptor portion for supporting the peripheral portion of a silicon wafer and further includes a second susceptor portion provided in contact with the peripheral portion of the first susceptor portion and covering the opening of the first susceptor portion. The second susceptor portion is disposed so that, when the silicon wafer is supported on the first susceptor portion, a gap of a predetermined size is formed between the silicon wafer and the second susceptor portion, and so that another gap of a size substantially equal to the predetermined size and directly connected to the above gap is formed between the first susceptor portion and the second susceptor portion. | 07-14-2011 |
20120055406 | Vapor Phase Deposition Apparatus and Support Table - A vapor phase deposition apparatus includes a chamber, a support table arranged in the chamber, and having a first support unit which is in contact with a back side surface of a substrate and on which the substrate is placed and a second support unit which is connected to the first support unit to support the first support unit, a heat source arranged at a position having a distance from a back side surface of the substrate, the distance being larger than a distance between back side surface of the support table and the heat source, and which heats the substrate, a first flow path configured to supply a gas to form a film into the chamber, and a second flow path configured to exhaust the gas from the chamber. | 03-08-2012 |