Patent application number | Description | Published |
20080298944 | SUBSTRATE TRANSPORT APPARATUS - A substrate transport apparatus including a first shaftless rotary motor including a first stator and a first rotor, the first stator being linearly distributed and the first rotor being coupled to a first arm, a second shaftless rotary motor including a second stator and second rotor, the second stator being linearly distributed and the second rotor being coupled to a second arm, the second arm being connected to the first arm and a first substrate support being coupled to at least one of the first and second arms, wherein the first stator and second stator are configured so that the first and second arms and the first substrate support are inside the stators and a motor output at a connection between the first and second shaftless rotary motors and a respective one of the first and second arms is a resultant force disposed peripheral to the first and second arms. | 12-04-2008 |
20090001907 | COMMUTATION OF AN ELECTROMAGNETIC PROPULSION AND GUIDANCE SYSTEM - A method of commutating a motor includes calculating an adjustment electrical angle, and utilizing the adjustment electrical angle in a common set of commutation equations so that the common set of commutation equations is capable of producing both one and two dimensional forces in the motor. | 01-01-2009 |
20090001917 | REDUCED-COMPLEXITY SELF-BEARING BRUSHLESS DC MOTOR - A method of commutating a motor includes operatively interfacing a stator and actuated component of the motor, arranging at least two winding sets relative to the actuated component, and independently controlling the at least two winding sets so that with the at least two winding sets the actuated component is both driven and centered. | 01-01-2009 |
20090016855 | LOAD LOCK FAST PUMP VENT - A substrate processing tool including a frame forming at least one isolatable chamber configured to hold a controlled atmosphere, at least two substrate supports located within each of the at least one isolatable chamber, each of the at least two substrate supports being stacked one above the other and configured to hold a respective substrate and a cooling unit communicably coupled to the at least two substrate supports such that the at least two substrate supports and cooling unit effect simultaneous conductive cooling of each of the respective substrates located on the at least two substrate supports. | 01-15-2009 |
20090022571 | SUBSTRATE PROCESSING APPARATUS WITH MOTORS INTEGRAL TO CHAMBER WALLS - A substrate transport apparatus including a peripheral wall having an inner surface that defines a substrate transport chamber capable of holding an isolated atmosphere, at least one substantially ring shaped motor having at least one stator module located within the peripheral wall, between the inner surface and an adjacent outer surface of the peripheral wall and at least one rotor suspended substantially without contact within the transport chamber such that a surface of the peripheral wall encompassed by the ring shaped motor is configured for attachment thereto of a predetermined device and at least one substrate transport arm connected to the at least one rotor and having at least one end effector configured to hold at least one substrate. | 01-22-2009 |
20090033316 | SENSOR FOR POSITION AND GAP MEASUREMENT - An apparatus including a controller, a transport in communication with the controller having a movable portion and a transport path and a multi-dimensional position measurement device in communication with the controller, the multi-dimensional position measurement device including a plurality of transformers and at least one element attached to the movable portion, wherein the multi-dimensional position measurement device is configured so that a circuit is completed in at least one plurality of transformers as the at least one element passes proximate to the at least one of the plurality of transformers and the controller is configured to calculate a multi-dimensional position of the movable object based on an output of the at least one of the plurality of transformers, wherein the multi-dimensional position includes at least a gap between the movable portion and the plurality of transformers. | 02-05-2009 |
20090087288 | SUBSTRATE TRANSPORT APPARATUS WITH MULTIPLE MOVABLE ARMS UTILIZING A MECHANICAL SWITCH MECHANISM - A substrate transport apparatus including a frame, a drive section connected to the frame and including at least one independently controllable motor, at least two substrate transport arms connected to the frame and comprising arm links arranged for supporting and transporting substrates, and a mechanical motion switch coupled to the at least one independently controllable motor and the at least two substrate transport arms for effecting the extension and retraction of one of the at least two substrate transport arms while the other one of the at least two substrate transport arms remains in a substantially retracted configuration. | 04-02-2009 |
20090162179 | SUBSTRATE PROCESSING APPARATUS - A drive system for a transport apparatus includes a plurality of permanent magnets connected to the transport apparatus, a plurality of stationary windings exposed to a field of at least one of the plurality of permanent magnets, a control system for energizing the stationary windings to provide magnetic force on the transport apparatus, and an arrangement of ferromagnetic components proximate at least one side of the transport apparatus for providing passive stabilization of lift, pitch, and roll of the transport apparatus. | 06-25-2009 |
20090243413 | ROBOT DRIVE WITH MAGNETIC SPINDLE BEARINGS - A drive section for a substrate transport arm including a frame, at least one stator mounted within the frame, the stator including a first motor section and at least one stator bearing section and a coaxial spindle magnetically supported substantially without contact by the at least one stator bearing section, where each drive shaft of the coaxial spindle includes a rotor, the rotor including a second motor section and at least one rotor bearing section configured to interface with the at least one stator bearing section, wherein the first motor section is configured to interface with the second motor section to effect rotation of the spindle about a predetermined axis and the at least one stator bearing section is configured to effect at least leveling of a substrate transport arm end effector connected to the coaxial spindle through an interaction with the at least one rotor bearing section. | 10-01-2009 |
20100054897 | REDUCED CAPACITY CARRIER, TRANSPORT, LOAD PORT, BUFFER SYSTEM - A semiconductor workpiece processing system having at least one processing apparatus for processing workpieces, a primary transport system, a secondary transport system and one or more interfaces between first transport system and second transport system. The primary and secondary transport systems each have one or more sections of substantially constant velocity and in queue sections communicating with the constant velocity sections. | 03-04-2010 |
20100147181 | Elevator-based tool loading and buffering system - An exemplary embodiment a substrate transport system is provided. The system has a guideway and at least one transport vehicle. The transport vehicle is adapted for holding at least one substrate and capable of being supported from and moving along the guideway. The guideway comprises at least one travel lane for the vehicle and at least one access lane offset from the travel lane allowing the vehicle selectable access on and off the travel lane. | 06-17-2010 |
20100158643 | ELEVATOR-BASED TOOL LOADING AND BUFFERING SYSTEM - A substrate processing apparatus is provided. The apparatus has a casing, a low port interface and a carrier holding station. The casing has processing devices within for processing substrates. The load port interface is connected to the casing for loading substrates into the processing device. The carrier holding station is connected to the casing. The carrier holding station is adapted for holding at least one substrate transport carrier at the load port interface. The carrier holding station is arranged to provide a fast swap section for replacement of the substrate transport carrier from the carrier holding station. | 06-24-2010 |
20110014016 | Equipment Storage for Substrate Processing Apparatus - A substrate processing apparatus has a frame and a load port connected to the frame and adapted to mate a substrate transport container to the frame. The apparatus has transportable storage that is adapted to be removably connected to the frame and fit beneath the load port. The storage may be an enclosure housing electrical, mechanical, or electromechanical devices of the substrate processing apparatus. | 01-20-2011 |
20110038692 | SUBSTRATE PROCESSING APPARATUS - A semiconductor workpiece processing apparatus having a first chamber, a transport vehicle, and another chamber. The first chamber is capable of being isolated from an outside atmosphere. The transport vehicle is located in the first chamber and is movably supported from the first chamber for moving linearly relative to the first chamber. The transport vehicle includes a base, and an integral semiconductor workpiece transfer arm movably mounted to the base and capable of multi-access movement relative to the base. The other chamber is communicably connected to the first chamber via a closable opening of the first chamber. The opening is sized to allow the transport vehicle to transit between the first chamber and the other chamber through the opening. | 02-17-2011 |
20110118855 | SCALABLE MOTION CONTROL SYSTEM - A control system includes a clustered architecture having a master controller, a central control section including one or more first remote controllers under direct control of the master controller, and a distributed control section including a cluster controller controlled by the master controller. The cluster controller controls the activities of one or more second remote controllers. Each of the first and second remote controllers are utilized to drive one or more axes. | 05-19-2011 |
20110142575 | ELEVATOR-BASED TOOL LOADING AND BUFFERING SYSTEM - A substrate processing apparatus is provided. The apparatus has a casing, a low port interface and a carrier holding station. The casing has processing devices within for processing substrates. The load port interface is connected to the casing for loading substrates into the processing device. The carrier holding station is connected to the casing. The carrier holding station is adapted for holding at least one substrate transport carrier so the at least one substrate transport carrier is capable of being coupled to the load port interface without lifting the at least one substrate transport carrier off the carrier holding station. The carrier holding station is arranged to provide a substantially simultaneous swap section for substantially simultaneous replacement of the substrate transport carrier from the carrier holding station. | 06-16-2011 |
20110232844 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus is presented having a transport chamber defining substantially linear substrate transport paths, a linear array of substrate holding modules, each communicably connected to the chamber. The substrate transport has at least one transporter capable of holding and moving the substrate on more than one substantially linear substrate transport paths. The transport chamber having different transport tubes at least one of which is sealable at both ends of the transport tube and configured to hold an isolated atmosphere different from that of the transport tubes, each of the different transport tubes having one of the substrate transport paths located therein different from another of the transport paths located in another of the transport tubes, and being communicably connected to each other, where at least one of the transport tubes is configured to provide uninterrupted transit of the substrate transport through the transport tubes. | 09-29-2011 |
20110316370 | SUBSTRATE PROCESSING APPARATUS WITH MOTORS INTEGRAL TO CHAMBER WALLS - In accordance to an aspect of the disclosed embodiments, a substrate transport apparatus is provided. The substrate transport apparatus includes a frame defining a chamber, at least one stator module embedded at least partly into a peripheral wall of the chamber, the at least one stator module defining an axis of rotation. The substrate transport apparatus further includes at least one rotor substantially concentrically disposed relative to the at least one stator module about the axis of rotation, the at least one rotor being configured to interface with the at least one stator module and being suspended by a respective one of the at least one stator module substantially without contact within the chamber. The substrate transport apparatus further includes at least one substrate transport arm connected to the at least one rotor and having at least one end effector configured to hold at least one substrate. | 12-29-2011 |
20120301261 | SUBSTRATE PROCESSING APPARATUS WITH MOTORS INTEGRAL TO CHAMBER WALLS - In accordance to an aspect of the disclosed embodiments, a substrate transport apparatus is provided. The substrate transport apparatus includes a frame defining a chamber, at least one stator module embedded at least partly into a peripheral wall of the chamber, the at least one stator module defining an axis of rotation. The substrate transport apparatus further includes at least one rotor substantially concentrically disposed relative to the at least one stator module about the axis of rotation, the at least one rotor being configured to interface with the at least one stator module and being suspended by a respective one of the at least one stator module substantially without contact within the chamber. The substrate transport apparatus further includes at least one substrate transport arm connected to the at least one rotor and having at least one end effector configured to hold at least one substrate. | 11-29-2012 |
20130069450 | Robot Drive With Passive Rotor - A substrate transport apparatus including a drive section and a first movable arm assembly. The drive section includes a first motor. The first motor includes a stator and a passive rotor. The first movable arm assembly is connected to the first motor. The substrate transport apparatus is configured for the first movable arm assembly to be positionable in a vacuum chamber with the passive rotor being in communication with an environment inside the vacuum chamber. | 03-21-2013 |
20130071217 | SUBSTRATE TRANSPORT APPARATUS - A substrate transport apparatus including a first shaftless rotary motor including a first stator and a first rotor, the first stator being linearly distributed and the first rotor being coupled to a first arm, a second shaftless rotary motor including a second stator and second rotor, the second stator being linearly distributed and the second rotor being coupled to a second arm, the second arm being connected to the first arm and a first substrate support being coupled to at least one of the first and second arms, wherein the first stator and second stator are configured so that the first and second arms and the first substrate support are inside the stators and a motor output at a connection between the first and second shaftless rotary motors and a respective one of the first and second arms is a resultant force disposed peripheral to the first and second arms. | 03-21-2013 |
20130071218 | Low Variability Robot - An apparatus including a frame, a first position sensor, a drive and a chamber. The frame has at least three members including at least two links forming a movable arm and an end effector. The end effector and the links are connected by movable joints. The end effector is configured to support a substrate thereon. The first position sensor is on the frame proximate a first one of the joints. The first position sensor is configured to sense a position of two of the members relative to each other. The drive is connected to the frame. The drive is configured to move the movable arm. The frame is located in the chamber, and the drive extends through a wall in the chamber. | 03-21-2013 |
20140017056 | LINEAR ROBOT ARM WITH MULTIPLE END EFFECTORS - A substrate transport apparatus including a lower linearly driven effector structure with spaced paddles, and an upper linearly driven end effector structure with spaced paddles and no rotating joints above a paddle of the lower end effector structure. A drive subsystem is configured to linearly drive the lower end effector structure and to linearly drive the upper end effector structure independent of the lower end effector structure. | 01-16-2014 |
20140044504 | COMPACT SUBSTRATE TRANSPORT SYSTEM - A substrate processing system including a load port module configured to hold at least one substrate container for storing and transporting substrates, a substrate processing chamber, an isolatable transfer chamber capable of holding an isolated atmosphere therein configured to couple the substrate processing chamber and the load port module, and a substrate transport mounted at least partially within the transfer chamber having a drive section fixed to the transfer chamber and having a SCARA arm configured to support at least one substrate, the SCARA arm being configured to transport the at least one substrate between the at least one substrate container and the processing chamber with but one touch of the at least one substrate, wherein the SCARA arm comprises a first arm link, a second arm link, and at least one end effector serially pivotally coupled to each other, where the first and second arm links have unequal lengths. | 02-13-2014 |
20140077629 | Robot Drive With Passive Rotor - A substrate transport apparatus including a drive section and a first movable arm assembly. The drive section includes a first motor. The first motor includes a stator and a passive rotor. The first movable arm assembly is connected to the first motor. The substrate transport apparatus is configured for the first movable arm assembly to be positionable in a vacuum chamber with the passive rotor being in communication with an environment inside the vacuum chamber. | 03-20-2014 |
20140077637 | Robot Drive With Passive Rotor - A substrate transport apparatus including a drive section and a first movable arm assembly. The drive section includes a first motor. The first motor includes a stator and a passive rotor. The first movable arm assembly is connected to the first motor. The substrate transport apparatus is configured for the first movable arm assembly to be positionable in a vacuum chamber with the passive rotor being in communication with an environment inside the vacuum chamber. | 03-20-2014 |
20140103752 | Hybrid Motor - A multi-phase motor including a rotor and a stator including at least one core. The stator includes a plurality of phase sections. Each phase section is configured to provide a phase of the multi-phase motor. Each phase section includes at least one of the core(s), at least two ring magnets having polarity facing in a substantially same direction, and a winding between the at least two ring magnets. The winding is configured to be energized to direct flux through the at least one core at a first portion associated with a first one of the ring magnets, and to be differently energized to direct flux through the at least one core at a second portion associated with a second one of the ring magnets. | 04-17-2014 |
20140126987 | SUBSTRATE TRANSPORT APPARATUS - A substrate transport apparatus having a frame, a drive section and an articulated arm. The drive section has at least one motor module that is selectable for placement in the drive section from a number of different interchangeable motor modules. Each having a different predetermined characteristic. The articulated arm has articulated joints. The arm is connected to the drive section for articulation. The arm has a selectable configuration selectable from a number of different arm configurations each having a predetermined configuration characteristic. The selection of the arm configuration is effected by selection of the at least one motor module for placement in the drive section. | 05-08-2014 |
20140137690 | Robot Having High Stiffness Coupling - A substrate transport arm including a plurality of links rotatably connected to each other in series; and a system for maintaining radial orientation of a third one of the links regardless of a rotational angle of first and second ones of the links relative to each other. The system for maintaining radial orientation includes a four-bar linkage. | 05-22-2014 |
20140161570 | SUBSTRATE PROCESSING APPARATUS - A substrate processing apparatus is presented having a transport chamber defining substantially linear substrate transport paths, a linear array of substrate holding modules, each communicably connected to the chamber. The substrate transport has at least one transporter capable of holding and moving the substrate on more than one substantially linear substrate transport paths. The transport chamber having different transport tubes at least one of which is sealable at both ends of the transport tube and configured to hold an isolated atmosphere different from that of the transport tubes, each of the different transport tubes having one of the substrate transport paths located therein different from another of the transport paths located in another of the transport tubes, and being communicably connected to each other, where at least one of the transport tubes is configured to provide uninterrupted transit of the substrate transport through the transport tubes. | 06-12-2014 |
20140178157 | LOAD LOCK CHAMBER - A semiconductor processing tool is disclosed, the tool having a frame forming at least one chamber with an opening and having a sealing surface around a periphery of the opening, a door configured to interact with the sealing surface for sealing the opening, the door having sides perpendicular to the door sealing surface and perpendicular to a transfer plane of a substrate, and at least one drive located on the frame to a side of at least one of the sides that are substantially perpendicular to the door sealing surface and substantially perpendicular to the transfer plane of the substrate, the drive having actuators located at least partially in front of the sealing surface and the actuators being coupled to one of the sides of the door for moving the door from a sealed position. The at least one drive is located outside of a substrate transfer zone. | 06-26-2014 |
20140205416 | Robot Having Arm with Unequal Link Lengths - A transport apparatus including a drive; a first arm connected to the drive, where the first arm includes a first link, a second link and an end effector connected in series with the drive, where the first link and the second link have different effective lengths; and a system for limiting rotation of the end effector relative to the second link to provide substantially only straight movement of the end effector relative to the drive when the first arm is extended or retracted. | 07-24-2014 |
20140294551 | SUBSTRATE TRANSPORT APPARATUS WITH MULTIPLE MOVABLE ARMS UTILIZING A MECHANICAL SWITCH MECHANISM - A substrate transport apparatus including a frame, a drive section connected to the frame and including at least one independently controllable motor, at least two substrate transport arms connected to the frame and comprising arm links arranged for supporting and transporting substrates, and a mechanical motion switch coupled to the at least one independently controllable motor and the at least two substrate transport arms for effecting the extension and retraction of one of the at least two substrate transport arms while the other one of the at least two substrate transport arms remains in a substantially retracted configuration. | 10-02-2014 |
20140365004 | Robot and Adaptive Placement System and Method - An apparatus including a drive; a movable arm assembly; a plurality of sets of end effectors; and a controller. The end effectors are connected to the drive by the movable arm assembly. A first one of the sets of end effectors includes at least two of the end effectors, where the drive and the movable arm assembly are configured to move the at least two end effectors substantially in unison from a retracted position towards an extended position towards two different respective target locations. The at least two end effectors are at least partially independently movable relative to each other on the moveable arm assembly. The controller is configured to detect an offset of respective substrates on the at least two end effectors and adjust movement of the at least two end effectors relative to each other prior to placement of the substrates at the respective target locations. | 12-11-2014 |
20140365005 | Robot and Adaptive Placement System and Method - An apparatus including at least one processor; and at least one non-transitory memory including computer program code, the at least one memory and the computer program code configured to, with the at least one processor, cause the apparatus to: determine locations of at least two substrates on respective end effectors of the apparatus while the substrates are being moved by the end effectors in substantial unison towards respective target locations for the substrates; and while the end effectors are being moved towards the respective target locations, and based upon the determined locations of the substrates, adjust a position of at least a first one of the end effectors on the apparatus relative to a second one of the end effectors, where the position of the first end effector is adjusted relative to the second end effector while the apparatus is moving the substrates in substantial unison towards the respective target locations and prior to reaching the target locations. | 12-11-2014 |
20140365011 | Robot and Adaptive Placement System and Method - A method including moving a substrate, located on a first end effector of a robot, from a first location towards a second location by the robot; determining location of a fiducial on the substrate while the substrate is being moved from the first location towards the second location; comparing the determined location of the fiducial with a reference fiducial location while the robot is moving the substrate from the first location towards the second location. | 12-11-2014 |
20150044001 | Reduced Footprint Substrate Transport Vacuum Platform - An apparatus has a vacuum transport chamber having first and second isolation valves coupled to first and second substrate processing locations, and third and fourth isolation valves coupled to a load lock. First and substrate transport vacuum robots are provided. The load lock is between the first and second substrate transport vacuum robots, and has an atmospheric isolation valve. The atmospheric isolation valve, the third and the fourth isolation valves are arranged in a spaced triangular relationship. The first substrate transport vacuum robot transports a processed substrate from the first processing location to the load lock and transports an unprocessed substrate from the load lock to the first processing location substantially simultaneously as the second substrate transport vacuum robot transports a different processed substrate from the second processing location to the load lock and transports a different unprocessed substrate from the load lock to the second processing location. | 02-12-2015 |
20150071737 | Substrate Transport Vacuum Platform - A transport apparatus including a robot drive; an arm having a first end connected to the robot drive; and at least one end effector connected to a second end of the arm. The arm includes at least three links connected in series to form the arm. The arm is configured to be moved by the robot drive to move the at least one end effector among load locks and two or more sets of opposing process modules. | 03-12-2015 |