| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 351213000 | Including light filter or absorber | 12 |
| 20080218695 | Optical device, use of an optical device according to the invention as well as method for blocking light reflections in the observation beam path of an optical device - The invention relates to an optical device for the examination of an eye, with at least one objective disposed facing the eye, at least one lighting source for illuminating the eye, an optical element and/or an optical arrangement disposed between the objective and the eye being examined, which optical element or arrangement produces an intermediate image of the plane examined within the eye, which is observed with the objective, whereby in the observation beam path of the optical device, at least one locally resolved attenuating element is disposed, which can be switched in a locally resolved manner into at least two transparency states. In addition, the invention relates to a method for blocking light reflections in the observation beam path of an optical device as well as the use of such an optical device for examining an eye. | 09-11-2008 |
| 20080225232 | Ophthalmic Endoilluminator with Variable-Wedge Rotating-Disk Beam Attenuator - An ophthalmic endoilluminator includes a light source, a variable-wedge rotating-disk attenuator, a condensing lens, and an optical fiber. The variable-wedge rotating-disk attenuator attenuates the light produced by the light source. The variable-wedge rotating-disk attenuator includes a wedge capable of being adjusted over a variable angle as measured through an arc of the wedge and an axle to which the wedge is attached. The axle rotates such that the wedge rotates around a pivot defined by the axle. The condensing lens focuses the attenuated light. The optical fiber carries the focused light into an eye. The variable-wedge rotating-disk attenuator is located such that it affects the intensity of a light beam transmitted into an eye. | 09-18-2008 |
| 20080225233 | VARIABLE-WEDGE ROTATING-DISK BEAM ATTENUATOR FOR OPHTHALMIC ENDOILLUMINATOR - A variable-wedge rotating-disk attenuator for use in an ophthalmic endoilluminator is disclosed. The attenuator includes a wedge attached to an axle. The size of the wedge can be adjusted over a variable angle as measured through an arc of the wedge. The axle to which the wedge is attached rotates such that the wedge rotates around a pivot defined by the axle. The variable-wedge rotating-disk attenuator is located such that it affects the intensity of a light beam transmitted into an eye. | 09-18-2008 |
| 20080246919 | Ophthalmic Endoilluminator with Hybrid Lens - An ophthalmic endoilluminator has a light source, a collimating lens for collimating the light produced by the light source, a filter for filtering the collimated light, an attenuator for attenuating the filtered light, a hybrid condensing lens for focusing the attenuated light, and an optical fiber for carrying the focused light into an eye. A diffractive surface on the hybrid condensing lens compensates for the other refractive surfaces. | 10-09-2008 |
| 20090009715 | Confocal Color Ophthalmoscope - A confocal color opthalmoscope having a line-shaped, incoherent light source. The light emitted from the linear light source is focused and scanned to illuminate a region of a retina of an eye with a line oriented perpendicular to the direction of scan. Light reflected from the retina of eye is collected, descanned and focused onto a line shaped detector. A dispersive element may be used to illuminate a multi-slit plate with different spectral components. The retina may then be scanned with multiple slits, each having a different spectral makeup. Light reflected from the retina may be descanned and imaged back to a multiple linear array photo-detector. One of said slits may be illuminated with infra-red radiation, and the others with visible light. A filter may allow only the infra-red light to reach the retina during an initial alignment mode, allowing non-mydriatic alignment of the opthalmoscope. | 01-08-2009 |
| 20090161069 | IRIS IMAGING LENS - An iris imaging lens ( | 06-25-2009 |
| 20090244484 | SYSTEMS AND METHODS FOR OPTICAL DETECTION OF LIPOFUSCIN CONCENTRATIONS IN A SUBJECT'S EYE - A method for optical detection of lipofuscin concentrations in the retina is described. A subject's eye is exposed to a light source. Light emitted from the subject's eye is detected. Levels of lipofuscin are determined from the emitted light. A system for optical detection of lipofuscin in the retina is described. The system includes a light source to generate light. The system includes an optical detector in optical communication with the light source. The optical detector is configured to detect light emitted from a subject's eye. A computing device in electronic communication with the optical detector is included in the system to determine levels of lipofuscin from the emitted light. | 10-01-2009 |
| 20100157247 | OPHTHALMIC ILLUMINATION FILTER SELECTION MECHANISM - An ophthalmic illumination filter selection mechanism for use with an ophthalmic illumination system. Three filters are mounted in holders on a first shaft and rotatable into an optical light path determined by the ophthalmic illumination system. Each of three cams mounted on a second shaft is configured to move a holder on the first shaft to position the corresponding filter in the optical light path in a predefined sequence relative to the other filters as the second shaft is rotated in a forward direction. Each cam has a backlash that allows the second shaft to be rotated in a reverse direction for a predetermined radial distance to allow a last remaining filter to be removed from the optical light path. Each cam has a cam profile that ensures one filter remains in the optical light path until the next filter is driven into the optical light path when the second shaft is rotated in the forward direction. This mechanism occupies less space than conventional filter selection mechanisms. | 06-24-2010 |
| 20120147329 | WAVELENGTH CONVERTING ILLUMINATION PROBE - Disclosed is an exemplary wavelength converting illumination probe having an illumination probe that can be selectively connected to a light source configured to generate light at a first wavelength range. The illumination probe including a lumen defining an aperture in a distal end of the illumination probe for emitting light. The wavelength converting illumination probe further including a wavelength converting element disposed within the lumen of the illumination probe. The wavelength converting element operable for receiving light from the light source at the first wavelength range, and converting the light to a second wavelength range. | 06-14-2012 |
| 20140104576 | OPHTHALMIC RANGE FINDING - Systems and methods for analyzing the anatomy of a patient's eye with circular or rotated polarized laser beams, or with laser beams of different wavelengths are disclosed. One system includes a polarization beam-splitter and a quarter-wave plate, wherein the quarter-wave plate is configured to circularly rotate a laser beam received from a laser that is transmitted and passes through the polarization beam-splitter, and to transform a circularly rotated back-reflected beam to a linearly polarized laser beam that is perpendicular to the beam that was transmitted through the polarization beam-splitter. Substantially all of the back-reflected beam is directed to a photo-detector for analysis. A Faraday rotator subsystem may be substituted for a polarization beam-splitter. An optical system including a laser that generates a laser beam of a first wavelength for therapeutic treatment, and another laser that generates a laser beam of a second wavelength for measurement is also disclosed. | 04-17-2014 |
| 20160157716 | Methods and Apparatus for Eye Relaxation - In exemplary implementations of this invention, a bi-ocular apparatus presents visual stimuli to one eye of a human subject in order to relax that eye, while measuring refractive aberration of the subject's other eye. Alternately, a monocular device presents stimuli to relax an eye while testing the same eye. The apparatus induces eye relaxation by displaying virtual objects at varying apparent distances from the subject. For example, the apparatus may do so by (i) changing distance between a backlit film and a lens; (ii) using extra lenses; (iii) using an adaptive lens that changes power; (v) selecting distinct positions in a progressive or multi-focal length lens; (vi) selecting distinct optical depths by fiber optical illumination; (vii) displaying a 3D virtual image at any given apparent depth; or (viii) display both a warped version of the real world and a test image at the same time. | 06-09-2016 |
| 20170231483 | ENDO-OPTIC ILLUMINATOR | 08-17-2017 |
