Patents by Inventor Arjen Gerben Van Der Sijde
Arjen Gerben Van Der Sijde 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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Patent number: 11982431Abstract: A LED lighting module is described that is realized as a printed circuit assembly. The LED lighting module has a carrier with a strip of dielectric material and conductive circuit tracks printed on the dielectric material. Bare LED dies are mounted in a linear formation on the carrier. The width of the LED die formation does not exceed 0.75 mm and the area of the emission face of an LED die does not exceed 0.0625 mm2. Drivers are mounted on the carrier and are connected to drive the LED dies.Type: GrantFiled: May 20, 2021Date of Patent: May 14, 2024Assignee: Lumileds LLCInventors: Nicola Bettina Pfeffer, Frederic Stephane Diana, Kevin-Gx Jiao, Charles André Schrama, Arjen Gerben Van der Sijde, Alan Andrew McReynolds, Yifeng Qiu
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Publication number: 20240126144Abstract: A camera can capture an image of a scene during an exposure duration of the camera. An illumination system for the camera can include a light-emitting diode (LED) array. The LED array can include a plurality of LEDs that can produce light during the exposure duration of the camera. The LED array can include one or more non-emitting areas located between adjacent LEDs in the LED array. A lens can direct the light toward the scene as illumination. The illumination can include one or more dark bands corresponding to the one or more non-emitting areas of the LED array, optionally surrounding the LEDs in the LED array. An actuator can translate at least one of the LED array or the lens during the exposure duration of the camera so as to blur the one or more dark bands in the illumination in the image of the scene.Type: ApplicationFiled: December 18, 2023Publication date: April 18, 2024Inventors: Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer, Asad Mughal
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Patent number: 11953805Abstract: A method according to embodiments of the invention includes creating a three-dimensional profile of a scene, calculating a relative amount of light for each portion of the scene based on the three-dimensional profile, and activating a light source to provide a first amount of light to a first portion of the scene, and a second amount of light to a second portion of the scene. The first amount and the second amount are different. The first amount and the second amount are determined by calculating a relative amount of light for each portion of the scene.Type: GrantFiled: April 25, 2023Date of Patent: April 9, 2024Assignee: Lumileds LLCInventors: Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer, Pieter Johannes Quintus van Voorst Vader, Yourii Martynov
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Patent number: 11948317Abstract: Multi-color flash with image post-processing that uses a camera device with a multi-color flash and implements post-processing to generate images is described. In one aspect, the multi-color flash with image post-processing may be implemented by a controller configured to control a camera and flashes of at least two different colors. The controller may be configured to cause the camera to acquire a first image of a scene while the scene is being illuminated with the first flash but not the second flash, then cause the camera to acquire a second image of the scene while the scene is being illuminated with the second flash but not the first flash, and generate a final image of the scene in post-processing based on a combination of the first image and the second image.Type: GrantFiled: February 24, 2023Date of Patent: April 2, 2024Assignee: Lumileds LLCInventors: Charles André Schrama, Nicola Bettina Pfeffer, Arjen Gerben Van der Sijde
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Patent number: 11936973Abstract: The invention describes an infrared imaging assembly (1) for capturing an infrared image (M0, M1) of a scene (S), comprising an infrared-sensitive image sensor (14); an irradiator (10) comprising an array of individually addressable infrared-emitting LEDs, wherein each infrared-emitting LED is arranged to illuminate a scene region (S1, . . . , S9); a driver (11) configured to actuate the infrared irradiator (10) by applying a switching pulse train (T1, . . . , T9) to each infrared-emitting LED; an image analysis module (13) configured to analyse a preliminary infrared image (M0) to determine the required exposure levels (130) for each of a plurality of image regions (R1, . . . , R9); and a pulse train adjusting unit (12) configured to adjust the duration (L1, . . . , L9) of a switching pulse train (T1, . . . , T9) according to the required exposure levels (130).Type: GrantFiled: April 28, 2022Date of Patent: March 19, 2024Assignee: Lumileds LLCInventors: Arjen Gerben Van der Sijde, Erno Fancsali, Nicola Bettina Pfeffer, Pieter Johannes Quintus van Voorst Vader
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Patent number: 11900859Abstract: A driver system controls a plurality of light emitting diodes (LEDs). The driver system includes a first driver to provide an LED current to each of the plurality of LEDs. The first driver includes a current mirror for the LED current provided to the plurality of LEDs. The driver system also includes a second driver to modulate the LED current provided to the plurality of LEDs.Type: GrantFiled: May 21, 2021Date of Patent: February 13, 2024Assignee: Lumileds LLCInventors: Wilhelmus Johannes Robertus Van Lier, Marcus Hendrikus Adrianus van Steen, Nicola Bettina Pfeffer, Rob Jacques Paul Engelen, Erkan Diken, Arjen Gerben Van Der Sijde
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Patent number: 11892750Abstract: First and second LED arrays can include respective first and second pluralities of light-emitting areas that are separated by respective first and second boundaries. The first and second boundaries can be arranged in slightly different patterns. At least one lens can collimate light from the first LED array to form first illumination, collimate light from the second LED array to form second illumination, and illuminate the scene with the first and second illuminations. The first boundaries can form first dark bands in the first illumination. The second boundaries can form second dark bands in the second illumination, which can be slightly offset from the first dark bands at the scene.Type: GrantFiled: November 14, 2022Date of Patent: February 6, 2024Assignee: Lumileds LLCInventors: Nicola Bettina Pfeffer, Arjen Gerben Van der Sijde, Charles André Schrama
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Patent number: 11886097Abstract: A camera can capture an image of a scene during an exposure duration of the camera. An illumination system for the camera can include a light-emitting diode (LED) array. The LED array can include a plurality of LEDs that can produce light during the exposure duration of the camera. The LED array can include one or more non-emitting areas located between adjacent LEDs in the LED array. A lens can direct the light toward the scene as illumination. The illumination can include one or more dark bands corresponding to the one or more non-emitting areas of the LED array, optionally surrounding the LEDs in the LED array. An actuator can translate at least one of the LED array or the lens during the exposure duration of the camera so as to blur the one or more dark bands in the illumination in the image of the scene.Type: GrantFiled: November 2, 2022Date of Patent: January 30, 2024Assignee: Lumileds LLCInventors: Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer
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Patent number: 11803104Abstract: A method according to embodiments of the invention includes creating a three-dimensional profile of a scene, calculating a relative amount of light for each portion of the scene based on the three-dimensional profile, and activating a light source to provide a first amount of light to a first portion of the scene, and a second amount of light to a second portion of the scene. The first amount and the second amount are different. The first amount and the second amount are determined by calculating a relative amount of light for each portion of the scene.Type: GrantFiled: November 30, 2021Date of Patent: October 31, 2023Assignee: Lumileds LLCInventors: Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer, Pieter Johannes Quintus van Voorst Vader, Yourii Martynov
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Patent number: 11800233Abstract: An apparatus includes a neuromorphic vision unit, an array, and a controller. The neuromorphic vision unit includes a plurality of pixels to photoelectrically produce data based on light received from an object in a scene. The array includes a plurality of light sources. The controller controls the plurality of light sources at one of a plurality of granularities, at least in part based on the data.Type: GrantFiled: May 21, 2021Date of Patent: October 24, 2023Assignee: Lumileds LLCInventors: Erkan Diken, Arjen Gerben Van Der Sijde, Nicola Bettina Pfeffer, Wilhelmus Johannes Robertus Van Lier, Marcus Hendrikus Adrianus van Steen, Rob Jacques Paul Engelen
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Patent number: 11789341Abstract: An illumination system can include a dual junction light-emitting diode (LED) array including first and second junctions that extend in a plane. The first junction can emit first light from a plurality of first light-emitting areas that are separated by first boundaries. The second junction can be disposed on the first junction such that the first light passes through the second junction. The second junction can emit second light from a plurality of second light-emitting areas. The second light-emitting areas can be separated by second boundaries that correspond in a one-to-one correspondence to the first boundaries. The second boundaries can be offset in the plane from the corresponding first boundaries. The offset can help reduce or eliminate dark bands in the combined first and second light, which could be present if the second boundaries were not offset from the first boundaries.Type: GrantFiled: November 7, 2022Date of Patent: October 17, 2023Assignee: Lumileds LLCInventors: Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer, Erik William Young
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Patent number: 11791445Abstract: A lighting device comprises a light-emitting module with light-emitting elements, wherein the light-emitting elements are arranged adjacent to each other and are configured to emit light towards a light-emitting side. The light-emitting module is configured such that the light-emitting elements can be addressed partially independently of each other, such that some may be brought into a switched-on state while others are brought into a switched-off state. A top layer is disposed on the light-emitting module at the light-emitting side. Further comprising a switching material capable of a reversible change in transmittance for the light emitted by changing to a higher transmittance in regions where the top layer situated on light-emitting elements in the switched-on state or to a lower transmittance in regions of the top layer situated in the switched-off state. The invention further refers to methods for producing and operating a lighting device and using a lighting device.Type: GrantFiled: July 26, 2022Date of Patent: October 17, 2023Assignee: Lumileds LLCInventors: Nicola Bettina Pfeffer, Arjen Gerben Van der Sijde, Marcel Rene Bohmer
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Publication number: 20230266639Abstract: A method according to embodiments of the invention includes creating a three-dimensional profile of a scene, calculating a relative amount of light for each portion of the scene based on the three-dimensional profile, and activating a light source to provide a first amount of light to a first portion of the scene, and a second amount of light to a second portion of the scene. The first amount and the second amount are different. The first amount and the second amount are determined by calculating a relative amount of light for each portion of the scene.Type: ApplicationFiled: April 25, 2023Publication date: August 24, 2023Inventors: Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer, Pieter Johannes Quintus van Voorst Vader, Yourii Martynov
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Publication number: 20230267629Abstract: Multi-color flash with image post-processing that uses a camera device with a multi-color flash and implements post-processing to generate images is described. In one aspect, the multi-color flash with image post-processing may be implemented by a controller configured to control a camera and flashes of at least two different colors. The controller may be configured to cause the camera to acquire a first image of a scene while the scene is being illuminated with the first flash but not the second flash, then cause the camera to acquire a second image of the scene while the scene is being illuminated with the second flash but not the first flash, and generate a final image of the scene in post-processing based on a combination of the first image and the second image.Type: ApplicationFiled: February 24, 2023Publication date: August 24, 2023Applicant: LUMILEDS LLCInventors: Charles André Schrama, Nicola Bettina Pfeffer, Arjen Gerben Van der Sijde
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Publication number: 20230261034Abstract: A semiconductor light-emitting device has an emitter matrix with an arrangement of emitter cells interspersed with non-emitter cells. The emitter cell has a semiconductor emitter, and a non-emitter cell does not have a semiconductor emitter. A number of bond pads for connection to a power supply and a plurality of wirebonds are present. Each wirebond extends from a bond pad to the semiconductor emitter of an emitter cell. An imaging arrangement includes a light source for illuminating a scene. The light source has a pair of such semiconductor light-emitting devices. A method of manufacturing such a semiconductor light-emitting device is also described.Type: ApplicationFiled: May 1, 2023Publication date: August 17, 2023Inventors: Nicola Bettina Pfeffer, Arjen Gerben Van der Sijde, Pieter Johannes Quintus van Voorst Vader
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Publication number: 20230254563Abstract: An imaging system can automatically measure a distance to an object. A camera, having a field of view that includes the object, can define a camera longitudinal axis that extends to a center of the field of view. An illuminator, defining an illuminator longitudinal axis that is substantially parallel to the camera longitudinal axis and is laterally offset from the camera longitudinal axis, can illuminate the object with an illumination field. The illumination field can have an illumination field central axis that is angularly offset from the illuminator longitudinal axis by an angle that depends at least in part on the measured distance to the object to at least partially compensate for parallax error caused by the lateral offset between the illuminator longitudinal axis and the camera longitudinal axis. The camera can capture an image of the object while the illuminator illuminates the object with the illumination field.Type: ApplicationFiled: January 31, 2023Publication date: August 10, 2023Inventors: Pieter Johannes Quintus van Voorst Vader, Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer
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Publication number: 20230204198Abstract: A LED lighting module is described that is realized as a printed circuit assembly. The LED lighting module has a carrier with a strip of dielectric material and conductive circuit tracks printed on the dielectric material. Bare LED dies are mounted in a linear formation on the carrier. The width of the LED die formation does not exceed 0.75 mm and the area of the emission face of an LED die does not exceed 0.0625 mm2. Drivers are mounted on the carrier and are connected to drive the LED dies.Type: ApplicationFiled: May 20, 2021Publication date: June 29, 2023Inventors: Nicola Bettina Pfeffer, Frederic Stephane Diana, Kevin-Gx Jiao, Charles André Schrama, Arjen Gerben Van der Sijde, Alan Andrew McReynolds, Yifeng Qiu
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Patent number: 11676991Abstract: A semiconductor light-emitting device has an emitter matrix with an arrangement of emitter cells interspersed with non-emitter cells. The emitter cell has a semiconductor emitter, and a non-emitter cell does not have a semiconductor emitter. A number of bond pads for connection to a power supply and a plurality of wirebonds are present. Each wirebond extends from a bond pad to the semiconductor emitter of an emitter cell. An imaging arrangement includes a light source for illuminating a scene. The light source has a pair of such semiconductor light-emitting devices. A method of manufacturing such a semiconductor light-emitting device is also described.Type: GrantFiled: July 15, 2020Date of Patent: June 13, 2023Assignee: Lumileds LLCInventors: Nicola Bettina Pfeffer, Arjen Gerben Van der Sijde, Pieter Johannes Quintus van Voorst Vader
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Publication number: 20230177793Abstract: An illumination arrangement in a mobile device is provided that uses an artificial neural network (ANN) to correct an image of a scene. The mobile device has an illumination apparatus with an LED array that emits light to illuminate a scene. The LED array has LEDs, separated by borders, that are independently driven. A camera has a sensor to capture an image of the scene. The ANN has a training mode in which the ANN is trained using a set of images captured by the camera to generate parameters. The ANN is trained offline in a cloud network. A processor uses the trained ANN in an inference mode to correct the image.Type: ApplicationFiled: November 29, 2022Publication date: June 8, 2023Inventors: Erkan Diken, Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer
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Publication number: 20230171383Abstract: A projection system can include a housing. A controller can receive a video signal and, in response to the video signal, produce a light-emitting diode (LED) array-controlling signal and a modulation panel-controlling signal. An LED array disposed in the housing can include LEDs that are configured to produce LED light having corresponding time-varying intensities in response to the LED array-controlling signal. A modulation panel disposed in the housing can have a plurality of pixels that are configured to modulate corresponding portions of the LED light in response to the modulation panel-controlling signal to form intensity-modulated light. A lens disposed in or on the housing can project the intensity-modulated light out of the housing to form a video image that corresponds to the video signal. The video image can be located away from the housing.Type: ApplicationFiled: November 21, 2022Publication date: June 1, 2023Inventors: Pieter Johannes Quintus van Voorst Vader, Arjen Gerben Van der Sijde, Nicola Bettina Pfeffer