Patents Assigned to Carl Zeiss
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Patent number: 11961694Abstract: An x-ray source includes an optical communications link to provide a galvanically isolated communication between a system controller and a gun controller. In specific examples, the link is provided through one or more fibers. In addition, the gun controller is preferably remote programmed by the system controller during startup. This addresses the problem of reprogramming a processor in a hard to access location/environment. A watchdog timer is also useful for the gun digital processor of the gun controller.Type: GrantFiled: April 23, 2021Date of Patent: April 16, 2024Assignee: Carl Zeiss X-ray Microscopy, Inc.Inventor: Claus Flachenecker
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Publication number: 20240115128Abstract: Systems and methods for improved interferometric imaging are presented. One embodiment is a partial field frequency-domain interferometric imaging system in which a light beam is scanned in two directions across a sample and the light scattered from the object is collected using a spatially resolved detector. The light beam could illuminate a spot, a line or a two-dimensional area on the sample. Additional embodiments with applicability to partial field as well as other types of interferometric systems are also presented.Type: ApplicationFiled: December 18, 2023Publication date: April 11, 2024Applicant: CARL ZEISS MEDITEC, INC.Inventors: Tilman Schmoll, Alexandre R. Tumlinson, Matthew J. Everett, Nathan D. Shemonski
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Publication number: 20240115127Abstract: The system, method and device includes an optical coherence tomography (OCT) system switchable between single scan mode or multi-scan mode. This is achieved by use of multiple beam splitters to produce multiple OCT beams, but the system still uses a single light source, a single sample arm, and single reference arm to achieve a compact, more cost effective, system. Additionally presented is a spectral domain OCT system with a spectrometer having multiple grating, each providing a different depth and/or resolution imaging capability.Type: ApplicationFiled: September 29, 2023Publication date: April 11, 2024Applicant: Carl Zeiss Meditec, Inc.Inventors: Muzammil A. Arain, Sophie Kubach, Jochen Straub, Tilman Schmoll
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Patent number: 11951042Abstract: A device and method for the pre-display of a spot pattern to be applied for a laser treatment of the eye. The spot patterns to be applied are displayed to the operator in advance with the aid of a target beam. The device for the pre-display of a spot pattern to be applied for a laser treatment of the eye includes a laser system and a scanning system for generating a target beam. Here, the laser system and the scanning system for generating the target beam are formed to generate one or more lines which overlie all the spots of the spot pattern of a planned laser treatment. The device and method are suitable for laser treatment of the retina, the trabecular meshwork as well as other regions. Here, it is irrelevant whether what the laser treatment to be applied is.Type: GrantFiled: April 4, 2019Date of Patent: April 9, 2024Assignee: Carl Zeiss Meditec AGInventors: Manfred Dick, Gerald Kunath-Fandrei, René Denner, Thomas Wurlitzer
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Patent number: 11953426Abstract: The present invention relates to a measurement light source for generating measurement light with a uniform spatial illumination intensity distribution. The measurement light source comprises a solid block, in which an illumination space, a light-forming space and a light exit space are each formed as a hollow space in the block and have a diffusely reflecting inner surface. The illumination space opens into the light-forming space. The light-forming space opens into the light exit space. At least one light source is at least partially arranged in the illumination space in order to generate light. The light exit space has a light exit. According to the invention, an axis of the illumination space and an axis of the light exit space are arranged at a distance from one another. The light-forming space is designed for a reversal of a light propagation direction. The invention also relates to a measuring arrangement for detecting at least an absolute reflection spectrum of a sample.Type: GrantFiled: March 17, 2020Date of Patent: April 9, 2024Assignee: CARL ZEISS SPECTROSCOPY GMBHInventor: Joerg Margraf
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Patent number: 11950846Abstract: A device for determining biometric variables of the eye, as are incorporated in the calculation of intraocular lenses including a multi-point keratometer and an OCT arrangement. The keratometer measurement points are illuminated telecentrically and detected telecentrically and the OCT arrangement is designed as a laterally scanning swept-source system with a detection region detecting the whole eye over the whole axial length thereof. Illumination points are arranged in three rings concentrically around an instrument axis; and the three rings include a first ring, a second ring and a third ring and the illumination points on the first ring and the third ring are rotated in relation to the illumination points on the second ring such that each of the illumination points on the first ring is on a common radial with one of the illumination points on the third ring and each of the illumination points on the second ring is not on the common radial.Type: GrantFiled: June 29, 2022Date of Patent: April 9, 2024Assignee: Carl Zeiss Meditec AGInventors: Ralf Ebersbach, Martin Hacker, Gerard Antkowiak, Peter Klopfleisch, Ferid Bajramovic, Tobias Bühren, Matthias Reich
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Patent number: 11953687Abstract: A head-mounted visualization unit is provided with an at least partially light-transmissive optical system. The optical system has a first optical channel assigned to a first eye of a user and a second optical channel assigned to a second eye of the user. The first optical channel is substantially transmissive to optical radiation of a first polarization and substantially opaque to optical radiation of a second polarization, with the first polarization substantially orthogonal to the second polarization. The second optical channel is substantially transmissive to optical radiation of the second polarization and substantially opaque to optical radiation of the first polarization. A polarizer and a light attenuator are arranged in the first optical channel. The light attenuator is arranged downstream of the polarizer in a direction toward the first eye of the user.Type: GrantFiled: March 1, 2021Date of Patent: April 9, 2024Assignee: CARL ZEISS MEDITEC AGInventors: Christoph Hauger, Stefan Saur, Christoph Schaeff
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Patent number: 11951043Abstract: A system for processing a portion in a processing volume of a transparent material by application of focused radiation including a device for generating and an optical system for focusing radiation, with a device for changing the position of the focus of the radiation and a control device. The system includes a controller that controls the ophthalmologic therapy system. The controller is encoded with a scan pattern. The scan pattern includes adjacent strokes with each adjacent stroke having an angle of inclination (?) to the beam axis; and the angle of inclination (?) of the strokes to the beam axis is always larger than or equal to the focal angle (?) of the focused radiation.Type: GrantFiled: January 20, 2022Date of Patent: April 9, 2024Assignee: Carl Zeiss Meditec AGInventors: Michael Bergt, Thomas Hamann, Robert Pomraenke
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Patent number: 11954831Abstract: A method of image evaluation when performing SIM microscopy on a sample includes: A) providing n raw images of the sample, which were each generated by illuminating the sample with an individually positioned SIM illumination pattern and imaging the sample in accordance with a point spread function, B) providing (S1) n illumination pattern functions, which each describe one of the individually positioned SIM illumination patterns, C) providing (S1) the point spread function and D) Carrying out an iteration method, which includes following iteration steps a) to e), as follows: a) providing an estimated image of the sample, b) generating simulated raw images, in each case by image processing of the estimated image using the point spread function and one of the n illumination pattern functions such that n simulated raw images are obtained, c) assigning each of the n simulated raw images to that of the n provided raw images which was generated by the illumination pattern that corresponds to the illumination patterType: GrantFiled: September 7, 2021Date of Patent: April 9, 2024Assignee: Carl Zeiss Microscopy GmbHInventors: Ingo Kleppe, Yauheni Novikau, Lutz Schaefer
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Patent number: 11954766Abstract: A method for correcting a shading in a digital image of a three-dimensional observation object obtained by at least one image sensor of an optical observation device is provided. The three-dimensional observation object is illuminated by illumination light and an intensity distribution, and an inhomogeneity in an image brightness is present in the digital image of the three-dimensional observation object. The method includes ascertaining a topography of the three-dimensional observation object, correcting the inhomogeneity in the image brightness of the digital image based on the topography of the three-dimensional observation object and the intensity distribution of the illumination light. In addition, an optical observation system is provided to perform the method.Type: GrantFiled: February 28, 2022Date of Patent: April 9, 2024Assignee: Carl Zeiss Meditec AGInventors: Dominik Scherer, Susanne Kohlhammer, Stefan Saur
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Patent number: 11953667Abstract: A device by which the magnification stages of a magnification selector based on Galilean telescope systems can be adjusted by a motor. The magnification selector has a sensor that transmits the currently magnification stage to a control unit; in the control unit, an assignment of the magnification stages present on the magnification selector to a sequence of the magnification stages, organized based on size, is stored. For the user, there are operating elements connected to the control unit for selecting a magnification stage. In order to set the magnification stage selected by the user via the operating elements, the magnification selector has an actuator, which is connected to the control unit to receive appropriate control signals. Although provided in particular for slit lamps and surgical microscopes having eyepieces, the solution can also be applied in other ophthalmological devices or devices from other technical fields.Type: GrantFiled: August 23, 2018Date of Patent: April 9, 2024Assignee: Carl Zeiss Meditec AGInventors: David Golz, Dietrich Martin, Ingo Koschmieder
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Publication number: 20240112799Abstract: A computer implemented method for determining a refractive power value of an intraocular lens to be inserted is described. The method includes measuring ophthalmological patient data, receiving a target refraction value, determining a first refractive power value of an intraocular lens to be inserted, with the measured ophthalmological patient data and the target refraction value being used as input data, determining, by means of a trained machine learning system, a second refractive power value of the intraocular lens to be inserted, the measured ophthalmological patient data and the received target refraction value being used as input data for the trained machine learning system, and determining the final refractive power value of the intraocular lens to be inserted from the first refractive power value and the second refractive power value by means of an individual boosting factor value.Type: ApplicationFiled: September 27, 2023Publication date: April 4, 2024Applicant: Carl Zeiss Meditec AGInventors: Hendrik Burwinkel, Michael Trost
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Publication number: 20240108212Abstract: The eye imaging system for producing images with reduced speckle artifacts may comprise a laser diode for providing a beam of radiation to the eye; a detector for collecting light returning from the eye and generating output signals in response thereto, the detector having a sensor integration time; a driver circuit for applying a modulated drive signal to the laser diode, the modulated drive signal inducing a spectral broadening of the beam of radiation during the sensor integration time. The laser diode may be a single-mode laser designed to operate at a fixed current and wavelength. The drive signal may be modulated by shaping a drive current pulse. The drive signal may be modulated by imposing an RF modulation on a drive current pulse. The drive signal may be further modulated by shaping a drive current pulse.Type: ApplicationFiled: September 21, 2023Publication date: April 4, 2024Applicant: Carl Zeiss Meditec, Inc.Inventors: Conor Leahy, An-Dien Nguyen, Robert Sprowl, Jochen Straub, John Walker
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Publication number: 20240108413Abstract: A computer-implemented method for training a machine learning system to determine an expected offset for a physical postoperative lens position of an intraocular lens to be inserted. The method includes determining a plurality of theoretical positions in the eye of different intraocular lenses to be inserted, the determination including a respective use of a relation and a respective lens-specific constant for the plurality of the theoretical postoperative positions.Type: ApplicationFiled: September 27, 2023Publication date: April 4, 2024Applicant: Carl Zeiss Meditec AGInventors: Hendrik Burwinkel, Michael Trost, Nicolas Bensaid, Stefan Saur
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Publication number: 20240112028Abstract: A method for training a machine learning system with an extended set of patient data is described. This method includes measuring patient data and assigning ground truth data, determining the number of data pairs E/A, determining whether the number of data pairs lies below a previously defined training data threshold value, and if this is the case, carrying out the following steps: selecting a physical-optical model; using data pairs E/A in order to determine corresponding second output vectors A? from input vectors E by means of the relation function R, determining a respective difference vector, modifying the input vectors by an ?-vector; determining third output vectors of the relation function; determining modified output vectors; and training a machine learning system by means of the modified data and the original data.Type: ApplicationFiled: September 29, 2023Publication date: April 4, 2024Applicant: Carl Zeiss Meditec AGInventors: Hendrik Burwinkel, Michael Trost, Nicolas Bensaid, Stefan Saur
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Publication number: 20240108506Abstract: An arrangement for OCT-based laser treatment of vitreous floaters. The arrangement for OCT-based laser vitreolysis includes an OCT system, a laser system having a deflection unit, optical elements that couple the OCT system and the laser system, a display unit and a central control and operating unit. The OCT system is configured to localize the floaters, the laser system is configured to destroy the floaters by application of laser pulses and the central control and operating unit is configured to determine apart from the coordinates of the localized floaters also their distance to structures of the eye, to derive exclusion criteria for the treatment, to align the deflection unit of the laser system to these coordinates and to focus and activate the laser system. The present invention relates to an arrangement for the gentle, low risk and painless laser treatment of vitreous floaters, which enables partially or fully automated therapy.Type: ApplicationFiled: September 24, 2020Publication date: April 4, 2024Applicant: Carl Zeiss Meditec AGInventors: Martin HACKER, Mark BISCHOFF, Manfred DICK
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Patent number: 11944571Abstract: The invention relates to a treatment apparatus having a modular intraocular lens, which comprises a first part having a haptic and a marking, visible in optical coherence tomography, with known dimensions of said marking and a second part having an optics body and which has a convergence state, in which the second part is in contact with the first part, and a spaced-apart state, in which the second part is spaced apart from the first part, having an optical coherence tomography device, which is configured to record, by means of optical coherence tomography, an OCT cross-sectional image which shows the first part arranged in a capsular bag of an eye and which shows dimensions of the marking in the OCT cross-sectional image, and having an evaluation unit which is configured to create a corrected OCT cross-sectional image by transforming coordinates of the OCT cross-sectional image in such a way that dimensions of the marking in the corrected OCT cross-sectional image are closer to the known dimensions of the maType: GrantFiled: September 6, 2023Date of Patent: April 2, 2024Assignee: CARL ZEISS MEDITEC AGInventors: Hessam Roodaki, Mhd Hasan Sarhan, Abouzar Eslami
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Patent number: 11948293Abstract: A position of an object is determined by optically capturing at least one capture structure arranged at the object or at a reference object captured from the object and thereby obtaining capture information, the at least one capture structure having a point-symmetrical profile of an optical property that varies along a surface of the capture structure, transforming a location-dependent mathematical function corresponding to the point-symmetrical profile of the optical property into a frequency domain, forming a second frequency-dependent mathematical function from a first frequency-dependent mathematical function, wherein the second mathematical function is formed from a relationship of in each case a real part and an imaginary part of complex function values of the first frequency-dependent mathematical function, and forming at least one function value of the second frequency-dependent mathematical function and determining the same as location information about a location of a point of symmetry of the locatiType: GrantFiled: January 31, 2021Date of Patent: April 2, 2024Assignee: Carl Zeiss Industrielle Messtechnik GmbHInventor: Wolfgang Hoegele
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Patent number: 11946950Abstract: An electro-optical circuit board can provide probe card functionality. The electro-optical circuit board includes at least one electrical conductor track and at least one optical beam path.Type: GrantFiled: October 5, 2020Date of Patent: April 2, 2024Assignee: Carl Zeiss SMT GmbHInventors: Philipp Huebner, Stefan Richter
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Patent number: 11944383Abstract: Apparatuses and methods for determining a refractive error of an eye are disclosed. A series of images of light coming from an eye are captured with varying optical powers, and the refractive error is then calculated based directly on the series of images used as approximate point spread functions. The calculation includes determining a modulation transfer area as a function of meridian angle and optical power in an angle range from 0° to 180° based on the series of images, and to calculate the refractive error based on the modulation transfer area as a function of angle and optical power.Type: GrantFiled: August 15, 2023Date of Patent: April 2, 2024Assignee: Carl Zeiss Vision International GmbHInventors: Nikolai Suchkov, Alexander Leube, Siegfried Wahl