Patents by Inventor Boaz Pnini
Boaz Pnini has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20240004315Abstract: A mounting for a lithography system comprises: a mounted element; a mounting element; and fastening elements which together secure the mounted element relative to the mounting element in at least one degree of freedom. A spacing is provided between the mounted element and the mounting element in the direction of the at least one degree of freedom, and each fastening element exerts a force on the mounted element exclusively in the direction of the at least one degree of freedom.Type: ApplicationFiled: September 15, 2023Publication date: January 4, 2024Inventor: Boaz Pnini
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Patent number: 11460780Abstract: A method adjusts a first element of a lithography apparatus toward a second element of the lithography apparatus via a tunable spacer which is arranged between the first element and the second element. The method includes: determining an actual location of the first element; determining a nominal location of the first element; unloading the tunable spacer; adjusting a height of the tunable spacer to bring the first element from the actual location to the nominal location; and loading the tunable spacer.Type: GrantFiled: April 12, 2021Date of Patent: October 4, 2022Assignee: Carl Zeiss SMT GmbHInventor: Boaz Pnini
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Publication number: 20220283509Abstract: An arrangement for use in a microlithographic optical imaging device includes an optical unit and a supporting structure for supporting the optical unit. The optical unit includes an optical element, a carrier structure for carrying the optical element, and an active actuating device. The optical element is supported on the carrier structure via of the active actuating device. The active actuating device is configured to adjust the optical element during normal operation of the optical imaging device in a maximum movement range, which is predefined by the normal operation of the optical imaging device, with respect to a first reference assigned to the imaging device. The active actuating device is configured so that the maximum movement range is completely covered by actuating movements of the active actuating device with an actuating accuracy predefined by the normal operation of the optical imaging device.Type: ApplicationFiled: May 20, 2022Publication date: September 8, 2022Inventors: Boaz Pnini, Jens Kugler, Bernhard Gellrich
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Patent number: 11320749Abstract: An actuator device for aligning an element includes at least one first actuator unit, which is secured to a support structure, for a first setting range and a second actuator unit, which is able to be secured to the element, for a second setting range. The second actuator unit is connected to an output element of the first actuator unit so that the positioning of the second actuator unit is adjustable by an adjustment of the output element. The first actuator unit has an adjusting element and a fixing element, which is able to be secured to the support structure. The fixing element secures the output element in a force-locking manner in an operating state of the element. The fixing element is furthermore configured to release the force-locking connection in a setting state of the element to enable an adjustment of the output element via the adjusting element.Type: GrantFiled: April 1, 2021Date of Patent: May 3, 2022Assignee: Carl Zeiss SMT GmbHInventor: Boaz Pnini
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Publication number: 20210389681Abstract: An actuator device aligns an optical element of a projection exposure apparatus. The actuator device includes a shaft. The first end portion of the shaft is deflectably suspended from a base point of a supporting structure by way of a joint. The second end portion of the shaft is fixed on the optical element. At least one actuator unit has a translator fixed on the shaft and a stator mechanically connected to the supporting structure to apply a deflection force to the shaft to radially deflect the shaft from a middle position.Type: ApplicationFiled: August 26, 2021Publication date: December 16, 2021Inventor: Boaz Pnini-Mittler
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Publication number: 20210232051Abstract: A method adjusts a first element of a lithography apparatus toward a second element of the lithography apparatus via a tunable spacer which is arranged between the first element and the second element. The method includes: determining an actual location of the first element; determining a nominal location of the first element; unloading the tunable spacer; adjusting a height of the tunable spacer to bring the first element from the actual location to the nominal location; and loading the tunable spacer.Type: ApplicationFiled: April 12, 2021Publication date: July 29, 2021Inventor: Boaz Pnini
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Publication number: 20210223705Abstract: An actuator device for aligning an element includes at least one first actuator unit, which is secured to a support structure, for a first setting range and a second actuator unit, which is able to be secured to the element, for a second setting range. The second actuator unit is connected to an output element of the first actuator unit so that the positioning of the second actuator unit is adjustable by an adjustment of the output element. The first actuator unit has an adjusting element and a fixing element, which is able to be secured to the support structure. The fixing element secures the output element in a force-locking manner in an operating state of the element. The fixing element is furthermore configured to release the force-locking connection in a setting state of the element to enable an adjustment of the output element via the adjusting element.Type: ApplicationFiled: April 1, 2021Publication date: July 22, 2021Inventor: Boaz Pnini
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Patent number: 10495845Abstract: An optical unit, in particular a facet mirror unit, includes an optical element and a supporting device. The optical element has an optical surface, in particular an elongate optical surface, which defines a plane of main extension and a direction of main extension in the plane of main extension. The supporting device includes a supporting unit and an actuator unit. The actuator unit is configured for tilting the optical surface, in that a tilting moment is exerted on the optical element by way of the actuator unit. The tilting moment runs in an inclined manner in relation to the plane of main extension. The supporting unit is configured to predefine a tilting axis for the optical surface that lies substantially in the plane of main extension of the optical surface when there is tilting of the optical surface by the tilting moment of the actuator unit.Type: GrantFiled: February 21, 2019Date of Patent: December 3, 2019Assignee: Carl Zeiss SMT GmbHInventor: Boaz Pnini-Mittler
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Publication number: 20190243089Abstract: An optical unit, in particular a facet mirror unit, includes an optical element and a supporting device. The optical element has an optical surface, in particular an elongate optical surface, which defines a plane of main extension and a direction of main extension in the plane of main extension. The supporting device includes a supporting unit and an actuator unit. The actuator unit is configured for tilting the optical surface, in that a tilting moment is exerted on the optical element by way of the actuator unit. The tilting moment runs in an inclined manner in relation to the plane of main extension. The supporting unit is configured to predefine a tilting axis for the optical surface that lies substantially in the plane of main extension of the optical surface when there is tilting of the optical surface by the tilting moment of the actuator unit.Type: ApplicationFiled: February 21, 2019Publication date: August 8, 2019Inventor: Boaz Pnini-Mittler
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Patent number: 10215953Abstract: An optical unit, in particular a facet mirror unit, includes an optical element and a supporting device. The optical element has an optical surface, in particular an elongate optical surface, which defines a plane of main extension and a direction of main extension in the plane of main extension. The supporting device includes a supporting unit and an actuator unit. The actuator unit is configured for tilting the optical surface, in that a tilting moment is exerted on the optical element by way of the actuator unit. The tilting moment runs in an inclined manner in relation to the plane of main extension. The supporting unit is configured to predefine a tilting axis for the optical surface that lies substantially in the plane of main extension of the optical surface when there is tilting of the optical surface by the tilting moment of the actuator unit.Type: GrantFiled: January 24, 2017Date of Patent: February 26, 2019Assignee: Carl Zeiss SMT GmbHInventor: Boaz Pnini-Mittler
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Publication number: 20170131518Abstract: An optical unit, in particular a facet mirror unit, includes an optical element and a supporting device. The optical element has an optical surface, in particular an elongate optical surface, which defines a plane of main extension and a direction of main extension in the plane of main extension. The supporting device includes a supporting unit and an actuator unit. The actuator unit is configured for tilting the optical surface, in that a tilting moment is exerted on the optical element by way of the actuator unit. The tilting moment runs in an inclined manner in relation to the plane of main extension. The supporting unit is configured to predefine a tilting axis for the optical surface that lies substantially in the plane of main extension of the optical surface when there is tilting of the optical surface by the tilting moment of the actuator unit.Type: ApplicationFiled: January 24, 2017Publication date: May 11, 2017Inventor: Boaz Pnini-Mittler
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Patent number: 9482959Abstract: An illumination optical system for EUV microlithography is used to direct an illumination light beam from a radiation source to an object field. At least one EUV mirror has a reflective face with a nonplanar mirror topography for forming the illumination light beam. The EUV mirror has at least one EUV attenuator arranged in front of it. The attenuator face which faces the reflective face of the EUV mirror has an attenuator topography which is designed to complement the mirror topography such that at least sections of the attenuator face are arranged at a constant interval from the reflective face. The result is an illumination optical system in which it is possible to correct unwanted variations in illumination parameters, for example an illumination intensity distribution or an illumination angle distribution, over the object field with as few unwanted radiation losses as possible.Type: GrantFiled: September 1, 2011Date of Patent: November 1, 2016Assignee: Carl Zeiss SMT GmbHInventors: Nicolas Schmidts, Joachim Hartjes, Ulrich Bingel, Boaz Pnini-Mittler
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Patent number: 9423590Abstract: The invention relates to an optical element for a projection exposure apparatus for semiconductor lithography comprising an optically active surface and at least one cooling component for cooling the optical element, wherein the cooling component is connected to at least two separate cooling circuits and embodied in such a way that the optically active surface can be cooled to a greater extent in at least one partial region than in a further partial region. The invention furthermore relates to a projection exposure apparatus comprising an optical element according to the invention.Type: GrantFiled: September 11, 2013Date of Patent: August 23, 2016Assignee: Carl Zeiss SMT GmbHInventors: Joachim Hartjes, Damian Fiolka, Boaz Pnini-Mittler
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Patent number: 9274256Abstract: A hexapod system is provided for aligning an optical element in semiconductor clean rooms or in a vacuum, particularly in an illumination device for a microlithographic EUV projection exposure apparatus. The system includes six hexapod supporting structures. Using a set of at least two replaceable spacer elements having a different extent in at least one direction, at least one of the six supporting structures can be adjusted. The latter is adapted so that a spacer element can be removed or a spacer element can be added while the coupling of the first coupling end to the carrying structure and the coupling of the second coupling end to the optical element are maintained. A method for aligning an optical element in semiconductor clean rooms or in a vacuum including using a hexapod system is provided.Type: GrantFiled: March 7, 2013Date of Patent: March 1, 2016Assignee: Carl Zeiss SMT GmbHInventor: Boaz Pnini-Mittler
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Publication number: 20140293255Abstract: The invention relates to a mirror arrangement, in particular for use in a microlithographic projection exposure apparatus, comprising a plurality of individual mirrors and a plurality of flexures, wherein each individual mirror is tiltable about at least one tilting axis via one of the flexures and wherein the flexures are integrated into a common component.Type: ApplicationFiled: June 13, 2014Publication date: October 2, 2014Inventor: Boaz Pnini-Mittler
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Publication number: 20140071523Abstract: The invention relates to an optical element for a projection exposure apparatus for semiconductor lithography comprising an optically active surface and at least one cooling component for cooling the optical element, wherein the cooling component is connected to at least two separate cooling circuits and embodied in such a way that the optically active surface can be cooled to a greater extent in at least one partial region than in a further partial region. The invention furthermore relates to a projection exposure apparatus comprising an optical element according to the invention.Type: ApplicationFiled: September 11, 2013Publication date: March 13, 2014Inventors: Joachim Hartjes, Damian Fiolka, Boaz Pnini-Mittler
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Patent number: 8665419Abstract: A device for an optical arrangement includes an optical element and a holding structure. The optical element makes contact with the holding structure at six discrete contact points. Coupling elements are provided, by which it is possible to apply a force at the contact points. A component of the force is greater than the weight force of the optical element in terms of absolute value and/or direction.Type: GrantFiled: May 6, 2011Date of Patent: March 4, 2014Assignee: Carl Zeiss SMT GmbHInventor: Boaz Pnini-Mittler
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Publication number: 20120069313Abstract: An illumination optical system for EUV microlithography is used to direct an illumination light beam from a radiation source to an object field. At least one EUV mirror has a reflective face with a nonplanar mirror topography for forming the illumination light beam. The EUV mirror has at least one EUV attenuator arranged in front of it. The attenuator face which faces the reflective face of the EUV mirror has an attenuator topography which is designed to complement the mirror topography such that at least sections of the attenuator face are arranged at a constant interval from the reflective face. The result is an illumination optical system in which it is possible to correct unwanted variations in illumination parameters, for example an illumination intensity distribution or an illumination angle distribution, over the object field with as few unwanted radiation losses as possible.Type: ApplicationFiled: September 1, 2011Publication date: March 22, 2012Applicant: CARL ZEISS SMT GMBHInventors: Nicolas Schmidts, Joachim Hartjes, Ulrich Bingel, Boaz Pnini-Mittler
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Patent number: 8107779Abstract: An optical crossbar switch for optically coupling optic fibers comprising: at least one first fiber and a plurality of second fibers; a moveable fiber-end carriage coupled to an end of the at least one first fiber and having at least one latching hook and being constrained to move along a predetermined trajectory; at least one moveable slack-control carriage coupled to the body of the at least one first fiber and constrained to move along a predetermined trajectory; an array of sockets defined by walls, at least one of which walls of each sockets formed having a latch hole for receiving the latching hook; and at least one moving device controllable to move the carriages; wherein to optically couple a first fiber to a second fiber, the at least one moving device moves the fiber-end carriage of at least one of the first and second fibers to a socket and inserts the fiber's fiber end into the socket so that the at least one latching hook latches into the latch hole and secures the carriage to the socket array.Type: GrantFiled: February 26, 2008Date of Patent: January 31, 2012Assignee: Fiberzone Networks Ltd.Inventors: Boaz Pnini, Ze'ev Ganor, Rahav Cohen, Menachem Eizenshtat
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Publication number: 20110279802Abstract: A device for an optical arrangement includes an optical element and a holding structure. The optical element makes contact with the holding structure at six discrete contact points. Coupling elements are provided, by which it is possible to apply a force at the contact points. A component of the force is greater than the weight force of the optical element in terms of absolute value and/or direction.Type: ApplicationFiled: May 6, 2011Publication date: November 17, 2011Applicant: CARL ZEISS SMT GMBHInventor: Boaz Pnini-Mittler