Patent application number | Description | Published |
20080218722 | Lithographic apparatus and device manufacturing method - A lithographic apparatus is disclosed having a deformable lens element through which a patterned radiation beam is arranged to pass before reaching a substrate and having a deformable lens actuator configured to transmit a combination of a force substantially parallel to the optical axis of the projection system and a localized torque about an axis substantially perpendicular to the optical axis independently at a plurality of sub-regions on the deformable lens element. | 09-11-2008 |
20080240501 | Measurement system, lithographic apparatus and method for measuring a position dependent signal of a movable object - An encoder-type measurement system is configured to measure a position dependent signal of a movable object, the measurement system including at least one sensor mountable on the movable object a sensor target object mountable on a substantially stationary frame, and a mounting device configured to mount the sensor target object on the substantially stationary frame. The measurement system further includes a compensation device configured to compensate movements and/or deformations of the sensor target object with respect to the substantially stationary frame. The compensation device may include a passive or an active damping device and/or a feedback position control system. In an alternative embodiment, the compensation device includes a gripping device which fixes the position of the sensor target object during a high accuracy movement of the movable object. | 10-02-2008 |
20080316460 | Control system, lithographic projection apparatus, method of controlling a support structure, and a computer program product - A control system is provided for controlling a support structure in a lithographic apparatus. The control system includes a first measurement system arranged to measure the position of a substrate supported by the support structure, the position being measured in a first coordinate system. The control system further includes a second measurement system for measuring the position of the support structure in a second coordinate system, the first measurement system having a presumed position in the second coordinate system. The control system further comprises a controller configured to control the position of the support structure based on measurements by the second measurement system, to convert the measured position of the substrate into a converted position of the support structure in the second coordinate system, to position the support structure based on the converted position, to receive a position error signal indicative of a difference between the presumed position and an actual position of the first measurement system in the second coordinate system, and to position the support structure in a manner dependent upon the position error signal. | 12-25-2008 |
20080319569 | Lithographic Projection Apparatus and Method for Controlling a Support Structure - A control system controls a support structure of a lithographic apparatus. A first measurement system measures the position of a substrate supported by the support structure, in a first coordinate system. A second measurement system measures the position of the support structure in a second coordinate system, the first measurement system having a presumed position in the second coordinate system. A controller controls the position of the support structure based on measurements by the second measurement system, to convert the measured position of the substrate into a converted position of the support structure in the second coordinate system, to position the support structure based on the converted position, to receive a position error signal indicative of a difference between the presumed position and an actual position of the first measurement system in the second coordinate system, and to position the support structure dependent upon the position error signal. | 12-25-2008 |
20090061361 | Integrated Circuit Manufacturing Methods with Patterning Device Position Determination - Methods of manufacturing an integrated circuit by a lithographic apparatus are disclosed. The methods include patterning a radiation beam with a patterning device, projecting the patterned beam onto a substrate using a projection system, and determining the position of the patterning device. In one example, the patterning device's position relative to the projection system is determined by measuring the position of the patterning device's support structure. In another example, the position can be determined by measuring a position of the patterning device relative to its support and by measuring a position of the support. In another example, a Z-position of the patterning device is determined by directing at least one beam of radiation onto a part of the patterning device located outside a pattern area. This can be done by directing a pair of laser beams from sensors on the projection system to reflecting strips on the patterning device. | 03-05-2009 |
20090091725 | Lithographic Apparatus, Projection Assembly and Active Damping - A lithographic apparatus comprises an illumination system configured to condition a radiation beam and a support constructed to support a patterning device. The lithographic apparatus further comprises a substrate table constructed to hold a substrate; and a projection system configured to project the patterned beam onto a target portion of the substrate. An active damping system is provided to dampen a vibration of at least part of the projection system. The active damping system comprises a combination of a sensor to measure a position quantity of the projection system and an actuator to exert a force on the projection system in dependency of a signal provided by the sensor. The active damping system is corrected to a damping mass, the damping mass being connected to the projection system. | 04-09-2009 |
20090103066 | Lithographic Apparatus and Device Manufacturing Method - A control system for controlling a position or position related quantity of an object is provided. A measurement system is configured to measure a position or position related quantity of the object. A controller is configured to provide a control signal on the basis of the measured position or position related quantity. A actuator actuates the object on the basis of the control signal. A filter unit, which may be a partial order filter unit, filters the measured position or position related quantity. | 04-23-2009 |
20090122284 | LITHOGRAPHIC APPARATUS HAVING AN ACTIVE DAMPING SUBASSEMBLY - A lithographic apparatus includes a projection system to project a patterned radiation beam onto a substrate, and a damping system to dampen a vibration of at least part of the projection system, the damping system including an interface damping mass and an active damping subsystem to dampen a vibration of at least part of the interface damping mass, the interface damping mass connected to the projection system, and the active damping subsystem connected to the interface damping mass, the active damping subsystem including a sensor to measure a position quantity of the interface damping mass and an actuator to exert a force on the interface damping mass based on a signal provided by the sensor. The damping system further includes an interface damping device connected to the interface damping mass and configured to damp a movement of the interface damping mass at an eigenfrequency of the interface damping mass. | 05-14-2009 |
20090147230 | Lithographic Apparatus and Device Manufacturing Method - A vibration damping arrangement for a lithographic apparatus includes a sensor arranged to, in use, detect a vibration of a projection system. An actuator is arranged to, in use, exert a force on a control unit of the projection system to convert an output signal of the sensor to an actuator input signal such that, during operation, the vibration of the projection system is mitigated by controlling the actuator by the input signal to exert the force to the projection system. | 06-11-2009 |
20090161085 | LITHOGRAPHIC APPARATUS HAVING ACOUSTIC RESONATOR - A lithographic apparatus may be provided with an acoustic resonator to dampen an acoustic vibration in the lithographic apparatus. The acoustic resonator may include a Helmholtz resonator. The helmholz resonator may be provided with an active element to provide active damping and/or altering a spring characteristic of the mass spring assembly formed by the resonator. The resonator may be provided at a slit in a shield between the patterning device stage and the projection system to suppress transfer of acoustical vibrations, caused by e.g. a movement of the patterning device stage, to the projection system. | 06-25-2009 |
20090195763 | LITHOGRAPHIC APPARATUS - A lithographic apparatus is arranged to transfer a pattern from a patterning device onto a substrate. The lithographic apparatus includes an acoustical sensor to measure a first acoustic vibration in a sensor measurement area in the lithographic apparatus. An actuator is provided to generate a second acoustic vibration in at least an area of the lithographic apparatus. Further, a control device is provided having a sensor input to receive a sensor signal of the acoustical sensor and an actuator output to provide an actuator drive signal to the actuator. The control device is arranged to drive the actuator so as to let the second acoustic vibration at least partly compensate in the area the first acoustic vibration. | 08-06-2009 |
20090207393 | Damping Arrangement, Active Damping System, Lithographic Apparatus, And Projection Assembly - An active damping system assembly is configured to dampen a vibration of at least part of a structure. The assembly includes a plurality of active dampers each including a sensor configured to measure a position quantity of an interface mass mounted on the structure; and an actuator configured to exert a force on the interface mass in dependency of a signal provided by the sensor, wherein each of the plurality of active damping systems is connected to the interface mass. The structure may be a projection system of a lithographic apparatus. | 08-20-2009 |
20090262325 | Positioning System, Lithographic Apparatus and Device Manufacturing Method - A positioning system to position a table within a base frame of a lithographic apparatus, the positioning system including first and second actuators and a controller. The first actuator exerting an actuation force on the table. The first actuator being connected to a balance mass constructed and arranged to absorb a reaction force of the first actuator. The controller and second actuator constructed and arranged to exert a compensation force and/or torque to compensate a torque caused by the actuation force exerted by the first actuator on the balance mass. | 10-22-2009 |
20090316129 | LITHOGRAPHIC APPARATUS HAVING A FEED FORWARD PRESSURE PULSE COMPENSATION FOR THE METROLOGY FRAME - A lithographic apparatus including a projection system configured to project a patterned radiation beam onto a target portion of a substrate; a metrology frame supported by a vibration isolation support device; an object movable with respect to the metrology frame; and a displacement determining unit to determine positions, speeds and/or accelerations of the object with respect to the metrology frame and/or the projection system. At least one actuator is provided for applying correcting forces and/or torques on the metrology frame, and a controller is provided which is configured to calculate the correcting forces and/or torques to be applied to the metrology frame based on the determined positions, speeds and/or accelerations of the object in order to compensate for pressure pulses exerted on the metrology frame due to movements of the object with respect to the metrology frame. | 12-24-2009 |
20100007867 | Lithographic Apparatus and Calibration Method - In an embodiment, a stage system calibration method includes moving the stage relative to an encoder grid in response to a setpoint signal and measuring a position of the stage by a sensor head cooperating with the encoder grid. The position of the stage is controlled by a stage controller. A signal representative of a difference between the setpoint signal and the position of the stage as measured by the sensor head is registered. The stage system is calibrated from the registered signal representative of the difference. | 01-14-2010 |
20100157264 | METHOD FOR DAMPING AN OBJECT, AN ACTIVE DAMPING SYSTEM, AND A LITHOGRAPHIC APPARATUS - A method for damping an object in two or more degrees of freedom, including measuring a position quantity at each of the two or more measurement locations; extracting from the measured position quantities a measurement signal for each dynamic mode; feeding the measurement signal of a dynamic mode to a controller unit associated with the respective dynamic mode, the controller unit providing for each dynamic mode an output signal on the basis of the respective measurement signal; and providing a control signal to each of the two or more actuators, the control signal for each actuator being based on output signals of one or more controller units. | 06-24-2010 |
20100159399 | LITHOGRAPHIC APPARATUS WITH GAS PRESSURE MEANS FOR CONTROLLING A PLANAR POSITION OF A PATTERNING DEVICE CONTACTLESS - A lithographic apparatus includes a position controller configured to control a position of a patterning device in its planar direction by selectively pressing at least one of the side faces of the patterning device. The position controller includes a gas pressure supply and one or more outflow openings directed towards at least one side face of the patterning device so as to exert pressurized gas on this side face in order to control the position of the patterning device in its planar direction in a contactless manner. | 06-24-2010 |
20110141447 | Measurement System and Lithographic Apparatus for Measuring a Position Dependent Signal of a Movable Object - An encoder-type measurement system is configured to measure a position dependent signal of a movable object, the measurement system including at least one sensor mountable on the movable object a sensor target object mountable on a substantially stationary frame, and a mounting device configured to mount the sensor target object on the substantially stationary frame. The measurement system further includes a compensation device configured to compensate movements and/or deformations of the sensor target object with respect to the substantially stationary frame. The compensation device may include a passive or an active damping device and/or a feedback position control system. In an alternative embodiment, the compensation device includes a gripping device which fixes the position of the sensor target object during a high accuracy movement of the movable object. | 06-16-2011 |
20110163477 | IMPRINT LITHOGRAPHIC APPARATUS AND IMPRINT LITHOGRAPHIC METHOD - An imprint lithography apparatus includes an actuator configured to displace an imprint template holder relative to a substrate holder to perform an imprint process. The imprint template holder and/or the substrate holder being supported on a support structure, the support structure being mounted to a vibration isolation system that is mounted to a base of the apparatus. The vibration isolation system is configured to provide a vibration isolation of the support structure relative to the base. A control unit is configured to control the actuator during the imprint process. The control unit is arranged to control an adjustable member of the vibration isolation system to adjust a dynamical characteristic of the vibration isolation system during at least part of the imprint process so as to reduce a displacement of the support structure relative to the base due to a force exerted on the support structure during the imprint process. | 07-07-2011 |
20110194088 | Projection System, Lithographic Apparatus, Method of Projecting a Beam of Radiation onto a Target and Device Manufacturing Method - A projection system (PS) is provided that includes a sensor system ( | 08-11-2011 |
20110208459 | LITHOGRAPHIC APPARATUS AND METHOD FOR CORRECTING A POSITION OF A STAGE OF A LITHOGRAPHIC APPARATUS - A lithographic apparatus includes a stage to hold an object, the stage being moveable relative to a reference structure in a motion range; a magnet structure to provide a spatially varying magnetic field in at least a part of the motion range, the magnet structure being moveable relative to the reference structure and the stage; a first position measurement system to provide a first measurement signal corresponding to a position of the stage and/or the object in a measurement direction relative to the reference structure; a second position measurement system to provide a second measurement signal corresponding to a position of the stage relative to the magnet structure; and a data processor to correct the first measurement signal with a value dependent on the second measurement signal to provide a corrected first measurement signal representative of the position of the stage and/or the object relative to the reference structure in the measurement direction. | 08-25-2011 |
20120013883 | Method of Reducing Noise in an Original Signal, and Signal Processing Device Therefor - In a method and apparatus for reducing noise in an original signal which contains a linear time varying signal and the noise, the original signal is differentiated to obtain a differentiated original signal. The differentiated original signal is Fourier transformed to obtain power spectral densities of the differentiated original signal. A noise frequency is detected in a power spectral density spectrum of the obtained power spectral densities of the differentiated original signal. For the noise frequency, a corresponding noise component is determined. The noise component is subtracted from the original signal to obtain a noise reduced original signal. | 01-19-2012 |
20120147355 | Positioning System, Lithographic Apparatus and Device Manufacturing Method - A positioning system to position a table within a base frame of a lithographic apparatus, the positioning system including first and second actuators and a controller. The first actuator exerting an actuation force on the table. The first actuator being connected to a balance mass constructed and arranged to absorb a reaction force of the first actuator. The controller and second actuator constructed and arranged to exert a compensation force and/or torque to compensate a torque caused by the actuation force exerted by the first actuator on the balance mass. | 06-14-2012 |
20120154774 | Lithographic Apparatus and Device Manufacturing Method - Lithography apparatus and device manufacturing methods are disclosed in which means are provided for reducing the extent to which vibrations propagate between a first element of a projection system and a second element of a projection system. Approaches disclosed include the use of plural resilient members in series as part of a vibration isolation system, plural isolation frames for separately supporting first and second projection system frames, and modified connection positions for the interaction between the first and second projection system frames and the isolation frame(s). | 06-21-2012 |
20140293251 | Projection System, Lithographic Apparatus, Method of Projecting a Beam of Radiation onto a Target and Device Manufacturing Method - A projection system is provided that includes a sensor system that measures at least one parameter that relates to the physical deformation of a frame that supports the optical elements within the projection system, and a control system that, based on the measurements from the sensor system, determines an expected deviation of the position of the beam of radiation projected by the projection system that is caused by the physical deformation of the frame. | 10-02-2014 |
20140340666 | LITHOGRAPHIC APPARATUS AND DEVICE MANUFACTURING METHOD - An exposure apparatus including a projection system configured to project a plurality of radiation beams onto a target; a movable frame that is at least rotatable around an axis; and an actuator system configured to displace the movable frame to an axis away from an axis corresponding to the geometric center of the movable frame and to cause the frame to rotate around an axis through the center of mass of the frame. | 11-20-2014 |