Patent application number | Description | Published |
20140296628 | Endoscope Tip Position Visual Indicator and Heat Management System - The present specification discloses an endoscope having a tip section equipped with multiple viewing elements. Each of the viewing elements' field of view is illuminated by a discrete illuminator, such as a LED, being operated in a flash mode. The flash mode of operation of the LEDs enable doctors to obtain a position of the endoscope tip within a patient's body from outside by viewing the light emitted by the LEDs. Since the light is emitted for short pre-defined periods of time, the heat generated by the LEDs during their periods of operation is within a safe threshold value, and does not cause any burn injury inside the patient's body. | 10-02-2014 |
20140296643 | Image Capture Assembly for Use in a Multi-Viewing Elements Endoscope - An image capturing assembly for use in an endoscope includes a manifold with a base and a casing extending outward from the base, a partially enclosed housing adapted to physically attach to the manifold, a foldable LED carrier substrate capable of carrying a plurality of LEDs, a flexible optical carrier substrate capable of carrying a plurality of camera sensors, and a tip cover adapted to cover the manifold, housing, LED carrier substrate, and optical carrier substrate. The manifold includes at least one continuous channel extending throughout its length. The foldable LED carrier substrate includes a central, forward facing portion, adapted to carry at least one illuminator for a front viewing element, and a pair of arms extending proximally from the central portion. Each arm includes at least one foldable protrusion adapted to carry an illuminator for a side viewing element. | 10-02-2014 |
20140296866 | Multiple Viewing Elements Endoscope Having Two Front Service Channels - An endoscope assembly has a tip that includes at least one front-pointing camera and at least one front illuminator associated therewith, at least one side-pointing camera and at least one side illuminator associated therewith, a first front service channel with a first exit point, and a second front service channel with a second exit point where the first and the second service channel exit points are located in close proximity on the front distal end of the tip. Further, an interior volume of the tip is in a range of 2.75 cm | 10-02-2014 |
20140309495 | Multiple Viewing Elements Endoscope System With Modular Imaging Units - An optical assembly adapted to be positioned within an endoscope tip and having three modular camera units, comprising: a front modular camera unit defined by a front central axis and a first and second side modular camera units defined by first and second side central axes that are substantially parallel to one another and substantially perpendicular to the front central axis. Each modular camera unit further comprises a holder for housing an associated optical element and an image sensor in data communication with a corresponding printed circuit board. The front, first side and second side modular camera units are respectively positioned in first, second and third compartments of an assembly holder. | 10-16-2014 |
20140316198 | Circuit Board Assembly of a Multiple Viewing Elements Endoscope - There is provided herein, an electronic circuit board assembly for a tip section of a multiple viewing elements endoscope, the assembly including a base board configured to carry a first metal frame to support a front looking viewing element and a second metal frame to support a side looking viewing element; and a flexible illumination circuit board comprising a front foldable panel configured to carry three sets of front illuminators for essentially illuminating the field of view (FOV) of the front looking viewing element, and a side foldable panel configured to carry a set of side illuminators for essentially illuminating the field of view (FOV) of the side looking viewing element. | 10-23-2014 |
20140333742 | White Balance Enclosure for Use with a Multi-Viewing Elements Endoscope - The specification describes a white balance enclosure for use with a tip of a multi-viewing elements endoscope. The white balance enclosure is used to provide a reference white background to the plurality of viewing elements when the tip is positioned within the white balance enclosure and a white balance circuit is used to calculate and store reference white balance values based on white field/test feed signals generated by the plurality of viewing elements exposed to the reference white background. | 11-13-2014 |
20140333743 | Operational Interface in a Multi-Viewing Element Endoscope - The present specification describes an endoscopy display system including an endoscope with a distal tip having at least three image capturing components, and a handle with an actuator that, when activated, generates a video processing command; a controller including a video processing system adapted to transmit commands to the three image capturing components and receive an image feed from each of said three image capturing components; and a display system, including at least one monitor that concurrently receives and concurrently visually displays each of said processed image feeds, where the video processing system is adapted to process each of said image feeds in accordance with the video processing command to cause at least one of changing a position of, zooming into or out of; recording; freezing; highlighting; or superimposing a navigation indicator upon the at least one of the processed image feeds. | 11-13-2014 |
20150208900 | Interface Unit In A Multiple Viewing Elements Endoscope System - An interface unit is configured to functionally associate with an endoscope system which includes at least two simultaneously operating imaging channels associated with at least two displays, respectively. In a first configuration, the interface unit includes an image processor functionally associated with the at least two imaging channels which is configured to separately synchronize images and image data received simultaneously from the at least two imaging channels and send those discrete image streams to different displays. In a second configuration, the interface unit includes an image processor functionally associated with the at least two imaging channels which is configured to receive image streams, synchronize the image streams, and create a single image stream to send to a display. | 07-30-2015 |