Patent application number | Description | Published |
20080197015 | MULTIPLE-MAGNETRON SPUTTERING SOURCE WITH PLASMA CONFINEMENT - A sputtering source has a magnetron and a target. Control magnets are provided about the target to modify the magnetic lines of the magnetron. A sputtering source has several magnetrons, each having a respective target. A plasma/sputtering shield is provided in front of the targets. The shield has several windows, each aligned with one of the targets. Magnets are provided on the shield to control the magnetic lines of the magnetrons. | 08-21-2008 |
20080202924 | Power Source Arrangement For Multiple-Target Sputtering System - An arrangement for concurrently powering a plurality of sputtering sources. A power supply is coupled to a charge accumulator. The charge accumulator is coupled to several sputtering sources via switching devices. The duty cycle of each switching device is used to individually control the power delivered to each sputtering source. In another arrangement, a power source is coupled to an impedance match circuit. The impedance match circuit is coupled to several sputtering sources via several balance elements. Each balance element is operated to individually control the power delivered to the sputtering source. | 08-28-2008 |
20090004873 | HYBRID ETCH CHAMBER WITH DECOUPLED PLASMA CONTROLS - A dielectric etch chamber and method for improved control of plasma parameters. The plasma chamber comprises dual-frequency bias source that capacitively couples the RF energy to the plasma, and a single or dual frequency source that inductively couples the RF energy to the plasma. The inductive source may be modulated for improved etch uniformity. | 01-01-2009 |
20090078374 | APPARATUS AND METHODS FOR TRANSPORTING AND PROCESSING SUBSTRATES - There is described apparatus and methods for transporting and processing substrates including wafers as to efficiently produce at reasonable costs improved throughput as compared to systems in use today. A key element is the use of a transport chamber along the sides of processing chambers for feeding substrates into a controlled atmosphere through a load lock and then along a transport chamber as a way of reaching processing chambers and then out of the controlled atmosphere following processing in the processing chambers. | 03-26-2009 |
20090086401 | ELECTROSTATIC CHUCK APPARATUS - An electrostatic chuck includes an angled conduit, or an angled laser drilled passage, through which a heat transfer gas is provided. A segment of the angled conduit and/or the angled laser drilled passage extends along an axis different from an axis of the electric field generated to hold a substrate to the chuck, thereby minimizing plasma arcing and backside gas ionization. A first plug may be inserted into the conduit, wherein a segment of a first exterior channel thereof extends along an axis different from an axis of the electric field. A first and second plug may be inserted into a ceramic sleeve which extends through at least one of the dielectric member and the electrode. Finally, the surface of the dielectric member may comprise embossments arranged at radial distances from the center of the dielectric member so as to improve heat transfer and gas distribution. | 04-02-2009 |
20090145752 | SYSTEM AND METHOD FOR DUAL-SIDED SPUTTER ETCH OF SUBSTRATES - A system is provided for etching patterned media disks. A movable electrode is utilized to perform sputter etch. The electrode moves to near or at slight contact to the substrate so as to couple RF energy to the disk. The material to be etched may be metal, e.g., Co/Pt/Cr or similar metals. The substrate is held vertically in a carrier and both sides are etched serially. That is, one side is etched in one chamber and then in the next chamber the second side is etched. An isolation valve is disposed between the two chambers and the disk carrier moves the disks between the chambers. The carrier may be a linear drive carrier, using, e.g., magnetized wheels and linear motors. | 06-11-2009 |
20090145879 | SYSTEM AND METHOD FOR COMMERCIAL FABRICATION OF PATTERNED MEDIA - A system is provided for etching patterned media disks for hard drive. The modular system may be tailored to perform specific processes sequences so that a patterned media disk is fabricated without removing the disk from vacuum environment. In some sequence the magnetic stack is etched while in other the etch is performed prior to forming the magnetic stack. In a further sequence ion implantation is used without etching steps. For etching a movable non-contact electrode is utilized to perform sputter etch. The cathode moves to near contact distance to, but not contacting, the substrate so as to couple RF energy to the disk. The substrate is held vertically in a carrier and both sides are etched serially. That is, one side is etched in one chamber and then in the next chamber the second side is etched. | 06-11-2009 |
20090145881 | SYSTEM AND METHOD FOR DUAL-SIDED SPUTTER ETCH OF SUBSTRATES - A system is provided for etching patterned media disks. A movable non-contact electrode is utilized to perform sputter etch. The electrode moves to near contact distance to, but not contacting, the substrate so as to couple RF energy to the disk. The material to be etched may be metal, e.g., Co/Pt/Cr or similar metals. The substrate is held vertically in a carrier and both sides are etched serially. That is, one side is etched in one chamber and then in the next chamber the second side is etched. An isolation valve is disposed between the two chambers and the disk carrier moves the disks between the chambers. The carrier may be a linear drive carrier, using, e.g., magnetized wheels and linear motors. | 06-11-2009 |
20090151872 | LOW COST HIGH CONDUCTANCE CHAMBER - A process chamber having high conductance and a method of manufacturing the process chamber are disclosed. The process chamber is machined from a single piece of aluminum where a process cavity and a pump cavity are created by intersecting cylinders. A substrate opening is also created at a bottom of the process cavity to provide conduit for services, such as cooling gas and electrical connections. A large undercut area is formed at a top of the pump cavity between the pump cavity and the process cavity. The undercut extends past the process chamber centerline at the process cavity. A circular saw is used to remove material and create a plenum which extends beyond the process cavity centerline. | 06-18-2009 |
20090159104 | METHOD AND APPARATUS FOR CHAMBER CLEANING BY IN-SITU PLASMA EXCITATION - A substrate processing chamber for processing substrates such as semiconductor wafers, flat panel substrate, solar panels, etc., includes mechanism for in-situ plasma clean. The chamber body has at least one plasma source opening provided on its sidewall. A movable substrate holder is situated within the chamber body, the substrate holder assumes a first position wherein the substrate is positioned below the plasma source opening for in-situ plasma cleaning of the chamber, and a second position wherein the substrate is positioned above the plasma source opening for substrate processing. A plasma energy source is coupled to the plasma source opening. | 06-25-2009 |
20090191030 | APPARATUS AND METHODS FOR TRANSPORTING AND PROCESSING SUBSTRATES - There is described apparatus and methods for transporting and processing substrates including wafers as to efficiently produce at reasonable costs improved throughput as compared to systems in use today. A linear transport chamber includes linear tracks and robot arms riding on the linear tracks to linearly transfer substrates along the sides of processing chambers for feeding substrates into a controlled atmosphere through a load lock and then along a transport chamber as a way of reaching processing chambers. | 07-30-2009 |
20090324369 | SYSTEM AND METHOD FOR SUBSTRATE TRANSPORT - Introduction of substrates into vacuum environment is accomplish by gradually reducing the number of substrates being transferred simultaneously as the clean and evacuated environment is progressed. Cassettes are maintained in clean atmospheric environment and do not enter the vacuum environment. Several vacuum locks are linearly staggered so as to introduce progressively higher level of vacuum environment. The number of substrates transported through this arrangement is a portion of the number of substrates present in each cassette. The staggered vacuum locks lead to a series of processing chambers, wherein a yet smaller number of substrates, e.g., one or two, are transported. | 12-31-2009 |
20100003768 | SYSTEM AND METHOD FOR PROCESSING SUBSTRATES WITH DETACHABLE MASK - Apparatus and methods are provided that enable processing of patterned layers on substrates using a detachable mask. Unlike prior art where the mask is formed directly over the substrate, according to aspects of the invention the mask is made independently of the substrate. During use, the mask is positioned in close proximity or in contact with the substrate so as to expose only portions of the substrate to processing, e.g., sputtering or etch. Once the processing is completed, the mask is moved away from the substrate and may be used for another substrate. The substrate may be cycled for a given number of substrates and then be removed for cleaning or disposal. | 01-07-2010 |
20100024731 | PROCESSING TOOL WITH COMBINED SPUTTER AND EVAPORATION DEPOSITION SOURCES - A substrate processing system particularly suitable for fabricating solar cells. The system has a front end module transporting cassettes, each cassette holding a preset number of substrates therein; a loading module coupled to the front end module and having mechanism for loading substrates from the cassettes onto carriers; and a plurality of processing chambers coupled to each other in series, each having tracks for transporting the carriers directly from one chamber to the next; wherein selected chambers of the plurality of processing chambers comprise at least one combination source having a sputtering module and an evaporation module arranged linearly in the direction of travel of the carriers. | 02-04-2010 |
20100208409 | METHOD FOR OPTIMIZED REMOVAL OF WAFER FROM ELECTROSTATIC CHUCK - Systems and methods for optimally dechucking a wafer from an electrostatic chuck are described. The force on a lift-pin mechanism is monitored and a dechuck voltage is determined based on the force. The wafer is dechucked at the determined dechuck voltage. | 08-19-2010 |
20100326602 | ELECTROSTATIC CHUCK - An isolator for heat transfer gas conduits of an electrostatic chuck is described. The isolator includes a sleeve and a body positioned in the sleeve to form an annulus between the body and sleeve that allows for flow of the heat transfer gas. The body is positioned against the puck of the chuck, and may be supported in this position by a spring. A silicon seal may be provided between the sleeve and the puck to prevent plasma from forming in the conduits. | 12-30-2010 |
20100329827 | LINEAR VACUUM ROBOT WITH Z MOTION AND ARTICULATED ARM - There is described apparatus and methods for transporting and processing substrates including wafers as to efficiently produce at reasonable costs improved throughput as compared to systems in use today. A linear transport chamber includes linear tracks and robot arms riding on the linear tracks to linearly transfer substrates along the sides of processing chambers for feeding substrates into a controlled atmosphere through a load lock and then along a transport chamber as a way of reaching processing chambers. A four-axis robot arm is disclosed, capable of linear translation, rotation and articulation, and z-motion. | 12-30-2010 |
20110104847 | EVAPORATIVE SYSTEM FOR SOLAR CELL FABRICATION - A plurality of chamber are arranged about a transport chamber. The linear transport chamber may include a linear track supporting robot arms. The robot arms transport substrates to and from the chambers. Each chamber includes a plurality of evaporators, each controlled independently. Each substrate positioned in the chamber is coated from a plurality of the evaporators, such that by controlling the operation of each evaporator independently the formation of the layers and the concentration gradient of each layer can be precisely controlled. | 05-05-2011 |
20110158773 | APPARATUS AND METHODS FOR TRANSPORTING AND PROCESSING SUBSTRATES - There is described apparatus and methods for transporting and processing substrates including wafers as to efficiently produce at reasonable costs improved throughput as compared to systems in use today. A key element is the use of a transport chamber along the sides of processing chambers for feeding substrates into a controlled atmosphere through a load lock and then along a transport chamber as a way of reaching processing chambers and then out of the controlled atmosphere following processing in the processing chambers. | 06-30-2011 |
20110206865 | METHOD OF AND APPARATUS UTILIZING CARBON CORD FOR EVAPORATION OF METALS - A high temperature evaporator is made using an electrically insulating crucible and a heating element made of woven graphite fibers. The crucible is manufactured out of an electrically insulating block to the required shape, and channels are machined on the walls of the crucible. The woven graphite cord is threaded through the channels and is used as heating elements. Since the heating cords are made of woven graphite, they are very flexible and do not embrittle. They can be manufactured to various resistivity as needed, allowing for relatively inexpensive power supplies and low current power delivery. The cords are not fragile and do not break due to thermal shock or vibration. | 08-25-2011 |
20110303148 | FULL-ENCLOSURE, CONTROLLED-FLOW MINI-ENVIRONMENT FOR THIN FILM CHAMBERS - An enclosure for generating a secondary environment within a processing chamber for coating a substrate. An enclosure wall forms a secondary environment encompassing the coating source, plasma, and the substrate, and separating them from interior of the processing chamber. The enclosure wall includes a plurality of pumping channels for diverting gaseous flow away from the substrate. The channels have an intake of larger diameter from the exhaust opening and are oriented at an angle with the intake opening pointing away from the deposition source. A movable seal enables transport of the substrate in open position and processing the substrate in closed position. The seal may be formed as a labyrinth seal to avoid particle generation from a standard contact seal. | 12-15-2011 |
20120076626 | LINEAR VACUUM ROBOT WITH Z MOTION AND ARTICULATED ARM - There is described apparatus and methods for transporting and processing substrates including wafers as to efficiently produce at reasonable costs improved throughput as compared to systems in use today. A linear transport chamber includes linear tracks and robot arms riding on the linear tracks to linearly transfer substrates along the sides of processing chambers for feeding substrates into a controlled atmosphere through a load lock and then along a transport chamber as a way of reaching processing chambers. A four-axis robot arm is disclosed, capable of linear translation, rotation and articulation, and z-motion. | 03-29-2012 |
20120090992 | SYSTEM AND METHOD FOR COMMERCIAL FABRICATION OF PATTERNED MEDIA - A system is provided for etching patterned media disks for hard drive. The modular system may be tailored to perform specific processes sequences so that a patterned media disk is fabricated without removing the disk from vacuum environment. In some sequence the magnetic stack is etched while in other the etch is performed prior to forming the magnetic stack. In a further sequence ion implantation is used without etching steps. For etching a movable non-contact electrode is utilized to perform sputter etch. The cathode moves to near contact distance to, but not contacting, the substrate so as to couple RF energy to the disk. The substrate is held vertically in a carrier and both sides are etched serially. That is, one side is etched in one chamber and then in the next chamber the second side is etched. | 04-19-2012 |
20120138230 | SYSTEMS AND METHODS FOR MOVING WEB ETCH, CVD, AND ION IMPLANT - Systems and methods for moving substrates through process chambers for photovoltaic (PV) or solar cell applications are disclosed. In particular, systems and methods for moving substrates through process chambers using a conveyor belt are disclosed. The conveyor belt can be used to move the substrates through etch chambers, chemical vapor deposition (CVD) chambers, and/or ion implant chambers, and the like. | 06-07-2012 |
20120152726 | METHOD AND APPARATUS TO PRODUCE HIGH DENSITY OVERCOATS - A deposition system is provided, where conductive targets of similar composition are situated opposing each other. The system is aligned parallel with a substrate, which is located outside the resulting plasma that is largely confined between the two cathodes. A “plasma cage” is formed wherein the carbon atoms collide with accelerating electrons and get highly ionized. The electrons are trapped inside the plasma cage, while the ionized carbon atoms are deposited on the surface of the substrate. Since the electrons are confined to the plasma cage, no substrate damage or heating occurs. Additionally, argon atoms, which are used to ignite and sustain the plasma and to sputter carbon atoms from the target, do not reach the substrate, so as to avoid damaging the substrate. | 06-21-2012 |
20120171807 | METHOD AND APPARATUS FOR MASKING SUBSTRATES FOR DEPOSITION - Disclosed are methods and apparatus for masking of substrates for deposition, and subsequent lifting of the mask with deposited material. Masking materials are utilized that can be used in high temperatures and vacuum environment. The masking material has minimal outgassing once inside a vacuum chamber and withstand the temperatures during deposition process. The mask is inkjeted over the wafers and, after deposition, removed using agitation, such as ultrasonic agitation, or using laser burn off. | 07-05-2012 |
20120291955 | LARGE AREA ICP SOURCE FOR PLASMA APPLICATION - An arrangement for coupling RF energy for inductively coupled plasma chamber. The RF coil or radiator is embedded within a groove made in the ceiling of the chamber and an insulating filler covers the coil within the groove. The ceiling may be made of two plates: an upper plate made of conductive material and a bottom plate made of dielectric material. The two plates are in physical contact. A magnetic shield may be provided over the coil to control the spread of the magnetic field from the coil. Fluid channels may be made in the conductive plate to provide thermal control. Also, fluid conduits may be provided to allow injecting gas into the pace between the metal and dielectric plates. | 11-22-2012 |
20130098761 | SYSTEM AND METHOD FOR COMMERCIAL FABRICATION OF PATTERNED MEDIA - A system is provided for etching patterned media disks for hard drive. The modular system may be tailored to perform specific processes sequences so that a patterned media disk is fabricated without removing the disk from vacuum environment. In some sequence the magnetic stack is etched while in other the etch is performed prior to forming the magnetic stack. In a further sequence ion implantation is used without etching steps. For etching a movable non-contact electrode is utilized to perform sputter etch. The cathode moves to near contact distance to, but not contacting, the substrate so as to couple RF energy to the disk. The substrate is held vertically in a carrier and both sides are etched serially. That is, one side is etched in one chamber and then in the next chamber the second side is etched. | 04-25-2013 |
20130105087 | SOLAR WAFER ELECTROSTATIC CHUCK | 05-02-2013 |
20130109189 | SYSTEM ARCHITECTURE FOR PLASMA PROCESSING SOLAR WAFERS | 05-02-2013 |
20130112546 | LINEAR SCANNING SPUTTERING SYSTEM AND METHOD - A sputtering system having a processing chamber with an inlet port and an outlet port, and a sputtering target positioned on a wall of the processing chamber. A movable magnet arrangement is positioned behind the sputtering target and reciprocally slides behinds the target. A conveyor continuously transports substrates at a constant speed past the sputtering target, such that at any given time, several substrates face the target between the leading edge and the trailing edge. The movable magnet arrangement slides at a speed that is at least several times faster than the constant speed of the conveyor. A rotating zone is defined behind the leading edge and trailing edge of the target, wherein the magnet arrangement decelerates when it enters the rotating zone and accelerates as it reverses direction of sliding within the rotating zone. | 05-09-2013 |
20130115764 | SUBSTRATE PROCESSING SYSTEM AND METHOD - A system for processing substrates has a vacuum enclosure and a processing chamber situated to process wafers in a processing zone inside the vacuum enclosure. Two rail assemblies are provided, one on each side of the processing zone. Two chuck arrays ride, each on one of the rail assemblies, such that each is cantilevered on one rail assemblies and support a plurality of chucks. The rail assemblies are coupled to an elevation mechanism that places the rails in upper position for processing and at lower position for returning the chuck assemblies for loading new wafers. A pickup head assembly loads wafers from a conveyor onto the chuck assemblies. The pickup head has plurality of electrostatic chucks that pick up the wafers from the front side of the wafers. Cooling channels in the processing chucks are used to create air cushion to assist in aligning the wafers when delivered by the pickup head. | 05-09-2013 |
20130149075 | HIGH THROUGHPUT LOAD LOCK FOR SOLAR WAFERS - A system for transporting substrates from an atmospheric pressure to high vacuum pressure and comprising: a rough vacuum chamber having an entry valve and an exit opening; a high vacuum chamber having an entry opening, the high vacuum chamber coupled to the rough vacuum chamber such that the exit opening and the entry opening are aligned; a valve situated between the exit opening and the entry opening; a first conveyor belt provided in the rough vacuum chamber; a second conveyor provided in the high vacuum chamber; a sensing element provided in the high vacuum chamber to enable detection of broken substrates on the second conveyor; and, a mechanism provided on the second conveyor belt enabling dumping of broken substrates onto the bottom of the high vacuum chamber. | 06-13-2013 |
20130161183 | SYSTEM ARCHITECTURE FOR COMBINED STATIC AND PASS-BY PROCESSING - Disclosed is a substrate processing system which enables combined static and pass-by processing. Also, a system architecture is provided, which reduces footprint size. The system is constructed such that the substrates are processed therein vertically, and each chamber has a processing source attached to one sidewall thereof, wherein the other sidewall backs to a complementary processing chamber. The chamber system can be milled from a single block of metal, e.g., aluminum, wherein the block is milled from both sides, such that a wall remains and separates each two complementary processing chambers. | 06-27-2013 |
20130230370 | LINEAR VACUUM ROBOT WITH Z MOTION AND ARTICULATED ARM - There is described apparatus and methods for transporting and processing substrates including wafers as to efficiently produce at reasonable costs improved throughput as compared to systems in use today. A linear transport chamber includes linear tracks and robot arms riding on the linear tracks to linearly transfer substrates along the sides of processing chambers for feeding substrates into a controlled atmosphere through a load lock and then along a transport chamber as a way of reaching processing chambers. A four-axis robot arm is disclosed, capable of linear translation, rotation and articulation, and z-motion. | 09-05-2013 |
20130276978 | DUAL-MASK ARRANGEMENT FOR SOLAR CELL FABRICATION - An arrangement for supporting substrates during processing, having a wafer carrier with a susceptor for supporting the substrate and confining the substrate to predetermined position. An inner mask is configured for placing on top of the substrate, the inner mask having an opening pattern to mask unprocessed parts of the substrate, but expose remaining parts of the substrate for processing. An outer mask is configured for placing on top of the inner mask, the outer mask having an opening that exposes the part of the inner mask having the opening pattern, but cover the periphery of the inner mask. | 10-24-2013 |
20130284594 | NARROW SOURCE FOR PHYSICAL VAPOR DEPOSITION PROCESSING - A narrow sputtering source and target which are designed to be installed in a series on a sputtering chamber. Each of the narrow sputtering source has length sufficient to traverse one direction of the sputtering zone, but is much narrower than the orthogonal direction of the sputtering zone. When the sputtering chamber performs a pass-by sputtering process, each of the narrow sputtering sources is sufficiently long to traverse the sputtering zone in the direction orthogonal to the substrate travel direction, but is much narrower than the sputtering zone in the direction of substrate travel. Several narrow sputtering sources are installed so as to traverse the entire sputtering zone in all directions. | 10-31-2013 |
20130287526 | SYSTEM ARCHITECTURE FOR VACUUM PROCESSING - A system for processing substrates in plasma chambers, such that all substrates transport and loading/unloading operations are performed in atmospheric environment, but processing is performed in vacuum environment. The substrates are transported throughout the system on carriers. The system's chambers are arranged linearly, such that carriers move from one chamber directly to the next. A conveyor, placed above or below the system's chambers, returns the carriers to the system's entry area after processing is completed. Loading and unloading of substrates may be performed at one side of the system, or loading can be done at the entry side and unloading at the exit side. | 10-31-2013 |
20140102888 | METHOD AND APPARATUS TO PRODUCE HIGH DENSITY OVERCOATS - A deposition system is provided, where conductive targets of similar composition are situated opposing each other. The system is aligned parallel with a substrate, which is located outside the resulting plasma that is largely confined between the two cathodes. A “plasma cage” is formed wherein the carbon atoms collide with accelerating electrons and get highly ionized. The electrons are trapped inside the plasma cage, while the ionized carbon atoms are deposited on the surface of the substrate. Since the electrons are confined to the plasma cage, no substrate damage or heating occurs. Additionally, argon atoms, which are used to ignite and sustain the plasma and to sputter carbon atoms from the target, do not reach the substrate, so as to avoid damaging the substrate. | 04-17-2014 |
20140311893 | SPUTTERING SYSTEM AND METHOD USING DIRECTION-DEPENDENT SCAN SPEED OR POWER - A sputtering system having a processing chamber with an inlet port and an outlet port, and a sputtering target positioned on a wall of the processing chamber. A movable magnet arrangement is positioned behind the sputtering target and reciprocally slides behind the target. A conveyor continuously transports substrates at a constant speed past the sputtering target, such that at any given time, several substrates face the target between the leading edge and the trailing edge. In certain embodiments, the movable magnet arrangement slides at a speed that is at least several times faster than the constant speed of the conveyor. A rotating zone is defined behind the leading edge and trailing edge of the target, wherein the magnet arrangement decelerates when it enters the rotating zone and accelerates as it reverses direction of sliding within the rotating zone. In certain embodiments, magnet power and/or speed varies as function of direction of magnet travel. | 10-23-2014 |
20140332376 | SPUTTERING SYSTEM AND METHOD USING COUNTERWEIGHT - A system for depositing material from a target onto substrates, comprising a processing chamber; a sputtering target having length L and having sputtering material provided on front surface thereof; a magnet operable to reciprocally scan across the length L in close proximity to rear surface of the target; and a counterweight operable to reciprocally scan at same speed but opposite direction of the magnet. | 11-13-2014 |