Class / Patent application number | Description | Number of patent applications / Date published |
117085000 | With a step of measuring, testing, or sensing | 35 |
20090038540 | Method for Manufacturing Epitaxial Wafer and Epitaxial Wafer Manufactured by this Method - In a vapor phase growth apparatus, epitaxial growth is performed with respect to a wafer having a CVD film formed on a back surface thereof as a wafer for monitoring that is used to guarantee a resistance and/or measure a thickness of an epitaxial layer, then epitaxial growth is performed with respect to a wafer as a dummy or a vapor phase growth apparatus is activated under conditions for performing epitaxial growth without using a wafer, and subsequently epitaxial growth is carried out with respect to a wafer as a product, thereby manufacturing an epitaxial wafer. As a result, when using a wafer having no CVD film to manufacture an epitaxial wafer that is used to fabricate an imaging device, e.g., a CCD or a CMOS image sensor, a method capable of effectively avoiding heavy-metal contamination and manufacturing a high-quality epitaxial layer is provided. | 02-12-2009 |
20110126759 | SYSTEM AND HIGH PRESSURE, HIGH TEMPERATURE APPARATUS FOR PRODUCING SYNTHETIC DIAMONDS - An apparatus for growing a synthetic diamond comprises a growth chamber, at least one manifold allowing access to the growth chamber, and a plurality of safety clamps positioned on opposite sides of the growth chamber; wherein the growth chamber and the plurality of safety clamps are comprised of a material having a tensile strength of about 120,000-200,000 psi, a yield strength of about 100,000-160,000 psi, an elongation of about 10-20%, an area reduction of about 40-50%, an impact strength of about 30-40 ft-lbs, and a hardness greater than 320 BHN. | 06-02-2011 |
20110265710 | FILM FORMING APPARATUS AND METHOD - A film-forming apparatus includes a chamber in which a substrate is to be placed, a reaction gas supply portion that supplies a reaction gas into the chamber, a heater that heats the substrate, a radiation thermometer that is provided outside the chamber to measure the temperature of the substrate by receiving radiant light from the substrate, and a tubular member that protects an optical path of radiant light between the substrate and the radiation thermometer. An inert gas is supplied from an inert gas supply portion to the tubular member. The tubular member preferably has an inner peripheral surface and an outer peripheral surface made of a material having a lower emissivity than the inner peripheral surface. | 11-03-2011 |
20110290175 | Multi-Chamber CVD Processing System - A multi-chamber CVD system includes a plurality of substrate carriers where each substrate carrier is adapted to support at least one substrate. A plurality of enclosures are each configured to form a deposition chamber enclosing one of the plurality of substrate carriers to maintain an independent chemical vapor deposition process chemistry for performing a processing step. A transport mechanism transports each of the plurality of substrate carriers to each of the plurality of enclosures in discrete steps that allow processing steps to be performed in the plurality of enclosures for a predetermined time. In some embodiments, the substrate carrier can be rotatable. | 12-01-2011 |
20110297076 | APPARATUS AND METHOD FOR BATCH NON-CONTACT MATERIAL CHARACTERIZATION - An apparatus for performing non-contact material characterization includes a wafer carrier adapted to hold a plurality of substrates and a material characterization device, such as a device for performing photoluminescence spectroscopy. The apparatus is adapted to perform non-contact material characterization on at least a portion of the wafer carrier, including the substrates disposed thereon. | 12-08-2011 |
20120012047 | METHOD OF TEMPERATURE DETERMINATION FOR DEPOSITION REACTORS - A method of determining a temperature in a deposition reactor includes the steps of depositing a first epitaxial layer of silicon germanium on a substrate, depositing a second epitaxial layer of silicon above the first epitaxial layer, measuring the thickness of the second epitaxial layer and determining the temperature in the deposition reactor using the measured thickness of the second epitaxial layer. The method may also include heating the deposition reactor to approximately a predetermined temperature using a heating device and a temperature measuring device and generating a signal indicative of a temperature within the deposition reactor. The method may also contain the steps of comparing the measured thickness with a predetermined thickness of the second epitaxial layer corresponding to the predetermined temperature and determining the temperature in the deposition reactor using the measured thickness of the second epitaxial layer and the predetermined thickness of the second epitaxial layer. | 01-19-2012 |
20130239879 | 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. | 09-19-2013 |
20130263776 | Methods For Fabricating A Semiconductor Wafer Processing Device - A method of fabricating a semiconductor processing device includes providing a susceptor including a substantially cylindrical body portion having opposing upper and lower surfaces. The body portion has a diameter larger than a wafer diameter. The method also includes providing a set of holes circumferentially disposed at a first susceptor diameter, the set of holes being evenly spaced with respect to adjacent holes and extending through the upper and lower surfaces in an area. The first susceptor diameter is larger than the wafer diameter, and holes are omitted along the first diameter in a set of predetermined orientations. | 10-10-2013 |
20160040317 | METHOD FOR PRODUCING SINGLE CRYSTAL - A method for producing a single crystal includes a step of placing a source material powder and a seed crystal within a crucible; and a step of growing a single crystal on the seed crystal. The crucible includes a peripheral wall part and a bottom part and a lid part that are connected to the peripheral wall part to close the openings of the peripheral wall part. In the step of growing the single crystal on the seed crystal, the crucible is disposed on a spacer so as to form a space starting directly below an outer surface of the bottom part, and the peripheral wall part and an auxiliary heating member that is placed so as to face the outer surface of the bottom part with the space therebetween are heated by induction heating to sublime the source material powder to cause recrystallization on the seed crystal. | 02-11-2016 |
20160108553 | SILICON CARBIDE SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A silicon carbide substrate capable of stably forming a device of excellent performance, and a method of manufacturing the same are provided. A silicon carbide substrate is made of a single crystal of silicon carbide, and has a width of not less than 100 mm, a micropipe density of not more than 7 cm | 04-21-2016 |
20160126095 | METHOD FOR DETERMINING PREFERENTIAL DEPOSITION PARAMETERS FOR A THIN LAYER OF III-V MATERIAL - First, second and third series of samples are successively made so as to determine the influence of the deposition parameters on the crystallographic quality of a layer of semiconductor material of III-V type. The parameters studied are successively the deposition pressure, the deposition temperature and the deposited thickness of a sub-layer of semiconductor material of III-V type so as to respectively determine a first deposition pressure, a first deposition temperature at the first deposition pressure, and a first deposited thickness at the first deposition temperature and at the first deposition pressure. The sub-layer of semiconductor material of III-V type is thickened by ways of a second layer of semiconductor material of III-V type deposited under different conditions. | 05-05-2016 |
20160160385 | APPARATUS AND PROCESS FOR CRYSTAL GROWTH - The present invention relates to an apparatus for vapour phase crystal growth to produce multiple single crystals in one growth cycle comprising one central source chamber, a plurality of growth chambers, a plurality of passage means adapted for transport of vapour from the source chamber to the growth chambers, wherein the source chamber is thermally decoupled from the growth chambers. | 06-09-2016 |
117086000 | With responsive control | 23 |
20080236477 | VAPOR PHASE GROWTH APPARATUS AND VAPOR PHASE GROWTH METHOD - A vapor phase growth apparatus and a vapor phase growth method improve the uniformity of film formed are provided. The vapor phase growth apparatus includes a chamber, a rotatable holder having a susceptor, an internal heater and an external heater which are arranged in the holder and heat the wafer from the bottom surface, an gas-pipe which is arranged to face the internal heater and sprays a cooling gas, and a temperature measuring unit which is arranged outside the chamber and measures the surface temperature of the wafer. In this manner, a position of a singular point of temperature which is an overheated portion generated on the wafer can be recognized. The singular point of temperature is locally cooled to make it possible to improve the uniformity of a temperature distribution in plane of the wafer. | 10-02-2008 |
20080295764 | Substrate temperature accuracy and temperature control flexibility in a molecular beam epitaxy system - A control system and method for controlling temperatures while performing a MBE deposition process, wherein the control system comprises a MBE growth structure; a heater adapted to provide heat for the MBE deposition process on the MBE growth structure; and a control computer adapted to receive a plurality of dynamic feedback control signals derived from the MBE growth structure; switch among a plurality of control modes corresponding with the plurality of dynamic feedback control signals; and send an output power signal to the heater to control the heating for the MBE deposition process based on a combination of the plurality of control modes. In one embodiment, the plurality of dynamic feedback control signals comprises thermocouple signals and pyrometer signals. | 12-04-2008 |
20100024719 | TRACKING CARBON TO SILICON RATIO IN SITU DURING SILICON CARBIDE GROWTH - A method of: supplying sources of carbon and silicon into a chemical vapor deposition chamber; collecting exhaust gases from the chamber; performing mass spectrometry on the exhaust gases; and correlating a partial pressure of a carbon species in the exhaust gases to a carbon:silicon ratio in the chamber. | 02-04-2010 |
20120024222 | SUBSTRATE TEMPERATURE ACCURACY AND TEMPERATURE CONTROL FLEXIBILITY IN A MOLECULAR BEAM EPITAXY SYSTEM - A control system and method for controlling temperatures while performing a MBE deposition process, wherein the control system comprises a MBE growth structure; a heater adapted to provide heat for the MBE deposition process on the MBE growth structure; and a control computer adapted to receive a plurality of dynamic feedback control signals derived from the MBE growth structure; switch among a plurality of control modes corresponding with the plurality of dynamic feedback control signals; and send an output power signal to the heater to control the heating for the MBE deposition process based on a combination of the plurality of control modes. In one embodiment, the plurality of dynamic feedback control signals comprises thermocouple signals and pyrometer signals. | 02-02-2012 |
20120118224 | TRANSFER CHAMBER METROLOGY FOR IMPROVED DEVICE YIELD - Apparatus and method for control of epitaxial growth parameters, for example during manufacture of light emitting diodes (LEDs). Embodiments include PL measurement of a group III-V film following growth while a substrate at an elevated temperature is in a transfer chamber of a multi-chamber cluster tool. In other embodiments, a film thickness measurement, a contactless resistivity measurement, and a particle and/or roughness measure is performed while the substrate is disposed in the transfer chamber. One or more of the measurements performed in the transfer chamber are temperature corrected to room temperature by estimating the elevated temperature based on emission from a GaN base layer disposed below the group III-V film. In other embodiments, temperature correction is based on an absorbance band edge of the GaN base layer determined from collected white light reflectance spectra. Temperature corrected metrology is then used to control growth processes. | 05-17-2012 |
20120118225 | EPITAXIAL GROWTH TEMPERATURE CONTROL IN LED MANUFACTURE - Apparatus and method for control of epitaxial growth temperatures during manufacture of light emitting diodes (LEDs). Embodiments include measurement of a substrate and/or carrier temperature during a recipe stabilization period; determination of a temperature drift based on the measurement; and modification of a growth temperature based on a temperature offset determined in response to the temperature drift exceeding a threshold criteria. In an embodiment, a statistic derived from a plurality of pyrometric measurements made during the recipe stabilization over several runs is employed to offset each of a set of growth temperatures utilized to form a multiple quantum well (MQW) structure. | 05-17-2012 |
20120272892 | Metal-Organic Vapor Phase Epitaxy System and Process - A VPE reactor is improved by providing temperature control to within 0.5° C., and greater process gas uniformity via novel reactor shaping, unique wafer motion structures, improvements in thermal control systems, improvements in gas flow structures, improved methods for application of gas and temperature, and improved control systems for detecting and reducing process variation. | 11-01-2012 |
20130000545 | DEVICE AND METHOD FOR PRODUCING BULK SINGLE CRYSTALS - The disclosure provides a device and method used to produce bulk single crystals. In particular, the disclosure provides a device and method used to produce bulk single crystals of a metal compound by an elemental reaction of a metal vapor and a reactant gas by an elemental reaction of a metal vapor and a reactant gas. | 01-03-2013 |
20130000546 | METHOD OF VAPOR PHASE EPITAXY AND VAPOR PHASE EPITAXY DEVICE - A method of vapor phase epitaxy that is one embodiment of the present invention characteristically includes loading a wafer in a reaction chamber and mounting the wafer on a supporting section; heating the wafer by a heater provided under the supporting section; performing deposition on the wafer by supplying a process gas onto the wafer while rotating the wafer; detecting a temperature distribution at least in a circumferential direction at a peripheral edge section of the wafer; and determining a presence/absence of adhesion between the wafer and the supporting section based on the detected temperature distribution. | 01-03-2013 |
20130098288 | GAS-PHASE SYNTHESIS OF WIRES - The present invention provides a method and a system for forming wires ( | 04-25-2013 |
20130167769 | TARGETED TEMPERATURE COMPENSATION IN CHEMICAL VAPOR DEPOSITION SYSTEMS - Targeted temperature compensation for use with a chemical vapor deposition (CVD) apparatus. A localized temperature monitoring system is configured to provide localized temperature information representing surface temperatures of portions of the one or more wafers on a wafer carrier while the wafer carrier is rotating in a CVD process. A temperature profiling system is configured to generate a temperature profile that is indicative of localized cold spots on a surface of the one or more wafers. The temperature profile is based on the localized temperature information. A targeted heating system is configured to selectively apply localized heat to the localized cold spots dynamically based on the temperature profile such that a thermal distribution of the surface of the one or more wafers is made more uniform while a CVD process is carried out on the CVD apparatus. | 07-04-2013 |
20130247816 | FILM-FORMING APPARATUS FOR THE FORMATION OF SILICON CARBIDE AND FILM-FORMING METHOD FOR THE FORMATION OF SILICON CARBIDE - A film-forming apparatus and method for the formation of silicon carbide comprising, a film-forming chamber to which a reaction gas is supplied, a temperature-measuring unit which measures a temperature within the chamber, a plurality of heating units arranged inside the chamber, an output control unit which independently controls outputs of the plurality of heating units, a substrate-transferring unit which transfers a substrate into, and out of the chamber, wherein the output control unit turns off or lowers at least one output of the plurality of heating units when the film forming process is completed, when the temperature measured by the temperature-measuring unit reaches a temperature at which the substrate-transferring unit is operable within the chamber, then at least one output of the plurality of heating units turned off or lowered, is turned on or raised, and the substrate is transferred out of the film-forming chamber by the substrate-transferring unit. | 09-26-2013 |
20130269598 | PROCESS FOR GROWING SILICON CARBIDE SINGLE CRYSTAL BY PHYSICAL VAPOR TRANSPORT METHOD AND ANNEALING SILICON CARBIDE SINGLE CRYSTAL IN SITU - A technology for growing silicon carbide single crystals by PVT (Physical Vapor Transport) and a technology for in-situ annealing the crystals after growth is finished is provided. The technology can achieve real-time dynamic control of the temperature distribution of growth chamber by regulating the position of the insulation layer on the upper part of the graphite crucible, thus controlling the temperature distribution of growth chamber in real-time during the growth process according to the needs of the technology, which helps to significantly improve the crystal quality and production yield. After growth is finished, the inert gas pressure in growth chamber is raised and the temperature gradient of the growth chamber is reduced so that in-situ annealing the silicon carbide crystals can be carried out under a small one, which helps to reduce the stress between the crystal and the crucible lid as well as that in sublimation grown crystals to reduce the breakage ratio and improve the yield ratio during the subsequent fabrication process. | 10-17-2013 |
20130276695 | SUSCEPTOR ASSEMBLIES FOR SUPPORTING WAFERS IN A REACTOR APPARATUS - Apparatus and methods for wafer processes such as etching and chemical vapor deposition processes are disclosed. In some embodiments, the apparatus includes a susceptor and a ring disposed beneath the susceptor to influence a thickness of the deposited epitaxial layer. | 10-24-2013 |
20130298823 | Gallium-Nitride-On-Diamond Wafers and Manufacturing Equipment and Methods of Manufacture - A method for integrating wide-gap semiconductors, and specifically, gallium nitride epilayers, with synthetic diamond substrates is disclosed. Diamond substrates are created by depositing synthetic diamond onto a nucleating layer deposited or formed on a layered structure that comprises at least one layer of gallium nitride. Methods for manufacturing GaN-on-diamond wafers with low bow and high crystalline quality are disclosed along with preferred choices for manufacturing GaN-on-diamond wafers and chips tailored to specific applications. | 11-14-2013 |
20150075420 | METHOD FOR MANUFACTURING A SINGLE CRYSTAL DIAMOND - A method for manufacturing a single crystal diamond in which vapor phase synthetic single crystal diamond is additionally deposited on a single crystal diamond seed substrate obtained by vapor phase synthesis, includes a step of measuring flatness of the seed substrate, a step of determining whether or not to flatten the seed substrate based on the measurement result of the flatness, and any one of the following two steps of a step of additionally depositing the vapor phase synthetic single crystal diamond after flattening the seed substrate for which the flattening is necessary based on the determination and a step of additionally depositing the vapor phase synthetic single crystal diamond without flattening the seed substrate for which the flattening is not necessary based on the determination. | 03-19-2015 |
20160032488 | VAPOR PHASE GROWTH APPARATUS AND VAPOR PHASE GROWTH METHOD - A vapor phase growth apparatus according to an embodiment includes n reaction chambers, a main gas supply passage supplying a process gas to the n reaction chambers, a main mass flow controller arranged in the main gas supply passage to control a flow rate of the process gas flowing in the main gas supply passage, (n−1) first sub gas supply passages being branches of the main gas supply passage to supply divided process gases to the (n−1) reaction chambers among the n reaction chambers, (n−1) first sub mass flow controllers arranged in the first sub gas supply passages to control flow rates of the process gases flowing in the first sub gas supply passages, and one second sub gas supply passage being a branch of the main gas supply passage to supply a remainder of the process gas to the one reaction chamber other than the (n−1) reaction chambers. | 02-04-2016 |
20160115624 | POST-SYNTHESIS PROCESSING OF DIAMOND AND RELATED SUPER-HARD MATERIALS - A method of processing a super-hard material having a Vickers hardness of no less than 2000 kg/mm2, the method comprising: (a) forming a surface of the super-hard material to have a first surface profile within a first root mean square deviation being no more than 5 μm; (b) analysing said surface of the super-hard material to detect a plurality of protruding regions on said surface; and (c) selectively processing over only the protruding regions on the surface of the super-hard material to form a second surface profile within a second root mean square deviation from the smooth target surface profile, said second root mean square deviation being no more than 100 nm. | 04-28-2016 |
20160122904 | METHOD OF PRODUCING EPITAXIAL WAFER - A method of adjusting conditions for epitaxial growth includes a first measurement step for measuring the thickness profile of a wafer before forming an epitaxial film; a second measurement step for measuring the thickness profile of an epitaxial wafer and the film thickness profile of the epitaxial film a after an epitaxial growth step before a polishing step; a third measurement step for measuring the thickness profile of an epitaxial wafer and the film thickness profile of an epitaxial film; and a step for adjusting conditions for epitaxial growth using the thickness profiles and the film thickness profiles measured in the first, second, and third measurement steps. | 05-05-2016 |
20160138185 | METHOD OF MANUFACTURING SILICON CARBIDE SINGLE CRYSTAL - A device for manufacturing a silicon carbide single crystal is prepared. The device includes a first resistive heater, a heat insulator, and a chamber. The heat insulator is provided with a first opening in a position facing the first resistive heater. The chamber is provided with a second opening in communication with the first opening. The first resistive heater has a first slit extending from an upper end surface toward a lower end surface of the first resistive heater and a second slit extending from the lower end surface toward the upper end surface, the first and second slits being alternately arranged along a circumferential direction, and the first resistive heater is provided with a third opening penetrating the first resistive heater and being in communication with the first and second openings. | 05-19-2016 |
20160138187 | METHOD OF MANUFACTURING SILICON CARBIDE SINGLE CRYSTAL - A method of manufacturing a silicon carbide single crystal includes steps of preparing a crucible, a source material disposed toward a bottom surface in the crucible, a seed crystal disposed to face the source material toward a top surface in the crucible, a resistive heater, and a heat insulator configured to be able to accommodate the crucible therein, measuring a mass of at least a portion of the heat insulator, comparing a measured value of the mass obtained in the measuring step with a threshold value, and growing a silicon carbide single crystal on the seed crystal by sublimation of the source material by heating the crucible placed in the heat insulator with the resistive heater. When the measured value of the mass is lower than the threshold value in the comparing step, the step of growing a silicon carbide single crystal is performed at least one or more times. | 05-19-2016 |
20160138191 | HIGH PRESSURE CHEMICAL VAPOR DEPOSITION APPARATUSES, METHODS, AND COMPOSITIONS PRODUCED THEREWITH - A composition, reactor apparatus, method, and control system for growing epitaxial layers of group III-nitride alloys. Super-atmospheric pressure is used as a process parameter to control the epitaxial layer growth where the identity of alloy layers differ within a heterostructure stack of two or more layers. | 05-19-2016 |
20160181167 | APPARATUS FOR FORMING A THIN LAYER AND METHOD OF FORMING A THIN LAYER ON A SUBSTRATE USNIG THE SAME | 06-23-2016 |