Patents by Inventor Peter Balazs
Peter Balazs 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).
-
Patent number: 11953187Abstract: Example embodiments relate to luminaire heads with interconnecting interfaces. One example luminaire head including an interconnected interface for an electronic device includes a support layer and a cover layer arranged over the support layer. The support layer includes a plurality of electrical tracks arranged on a surface of the support layer and connectable to a power supply of the luminaire head. The support layer also includes a first electrical connector. The first electrical connector is connected to at least one of the plurality of electrical tracks and is suited for connecting to the electronic device. Further, the support layer includes a second electrical connector. The second electrical connector is directly connected to the first electrical connector via the at least one of the plurality of electrical tracks. An upper surface of the cover layer includes a first opening and at least one retaining means.Type: GrantFiled: February 12, 2021Date of Patent: April 9, 2024Assignee: Schreder S.A.Inventors: Peter Budavari, Csaba Horvath, Peter Balázs Bedo, Attila Sápi
-
Publication number: 20240032174Abstract: A luminaire driver system comprising: a driver (200) having a driver housing (250) with output connections (202) for connection to at least one light source (110); wherein the driver comprises a driver circuitry (210) arranged in said driver housing, said driver circuitry being configured to perform a driving functionality of the at least one light source (110); wherein said driver housing is provided with a receiving means (260) for receiving a pluggable surge protection module (300); the surge protection module (300) comprising surge protection circuitry (310), wherein the surge protection module and/or the receiving means are configured such that the surge protection circuitry is connectable to a power supply and such that the surge protection circuitry is electrically connected to the driver circuitry, when the surge protection module is received in the receiving means.Type: ApplicationFiled: January 9, 2020Publication date: January 25, 2024Inventor: Peter Balázs Bedo
-
Publication number: 20230125172Abstract: Example embodiments relate to luminaire heads with interconnecting interfaces. One example luminaire head including an interconnected interface for an electronic device includes a support layer and a cover layer arranged over the support layer. The support layer includes a plurality of electrical tracks arranged on a surface of the support layer and connectable to a power supply of the luminaire head. The support layer also includes a first electrical connector. The first electrical connector is connected to at least one of the plurality of electrical tracks and is suited for connecting to the electronic device. Further, the support layer includes a second electrical connector. The second electrical connector is directly connected to the first electrical connector via the at least one of the plurality of electrical tracks. An upper surface of the cover layer includes a first opening and at least one retaining means.Type: ApplicationFiled: February 12, 2021Publication date: April 27, 2023Inventors: Peter BUDAVARI, Csaba HORVATH, Peter Balázs BEDO, Attila SÁPI
-
Publication number: 20220159808Abstract: Example embodiments relate to luminaire systems with SPD. One example luminaire system includes a luminaire housing, a support with at least one light source arranged thereon, a drive means configured for driving the at least one light source, a surge protection device between a power supply and the drive means, and an indicator device. The surge protection device includes surge protection circuitry and monitoring circuitry configured to monitor a malfunctioning of the surge protection circuitry and provide an output signal based on the monitoring. The monitoring circuitry is connected such that a state of the indicator device is changed when the output signal indicates a malfunctioning. The indicator device is arranged at a location which is such that the state of the indicator device is visible from outside of the luminaire housing.Type: ApplicationFiled: January 9, 2020Publication date: May 19, 2022Inventor: Peter Balázs Bedo
-
Publication number: 20220120420Abstract: Example embodiments relate to tiltable luminaire joints. One example tiltable joint for a luminaire includes a first joint portion that includes a joint member provided with an outer cylindrical surface section having an axis and opposing bearings aligned with said axis. The outer cylindrical surface section being provided with a first plurality of interengaging surfaces. The tiltable joint also includes a second joint portion that includes a joint housing provided with a pair of axially-aligned receiving surfaces, and an inner cylindrical surface provided with a second plurality of interengaging surfaces configured to interengage the first plurality of interengaging surface. The joint member of the first joint portion is configured for being housed within the joint housing of the second joint portion. Further, the tiltable joint includes first and second shaft portions that extend in alignment with the pair of axially-aligned bearings. Additionally, the tiltable joint includes a fixation means.Type: ApplicationFiled: January 7, 2020Publication date: April 21, 2022Inventors: Gyula Oláh, Csaba Horvath, János Péter Szügyi, Peter Balázs Bedo
-
Patent number: 10876716Abstract: A lighting fixture comprising: an elongate housing having an outer surface and an inner surface and having an elongate opening extending in a longitudinal direction of the housing; wherein the elongate housing comprises a first wall and a second wall extending towards the elongate opening; a light module for emitting light having a first face through which light is emitted and an opposite second face; a plurality of retainer means provided at the second face and configured for engaging the first and second walls such that the light module is retained within the elongate housing; a stopper means for preventing inward displacements of the light module past a predetermined boundary.Type: GrantFiled: May 8, 2018Date of Patent: December 29, 2020Assignee: Schreder S.A.Inventors: Peter Budavari, Csaba Horvath, Péter Balázs Bedo, Peter Pelbart
-
Publication number: 20200116336Abstract: A lighting fixture comprising: an elongate housing having an outer surface and an inner surface and having an elongate opening extending in a longitudinal direction of the housing; wherein the elongate housing comprises a first wall and a second wall extending towards the elongate opening; a light module for emitting light having a first face through which light is emitted and an opposite second face; a plurality of retainer means provided at the second face and configured for engaging the first and second walls such that the light module is retained within the elongate housing; a stopper means for preventing inward displacements of the light module past a predetermined boundary.Type: ApplicationFiled: May 8, 2018Publication date: April 16, 2020Inventors: Peter Budavari, Csaba Horvath, Péter Balázs Bedo, Peter Pelbart
-
Patent number: 9596176Abstract: A pseudowire redundancy network comprises a plurality of pseudowires (PW13, PW 14) attached to a provider edge node (201). For selecting an active pseudowire (PW13) to be used for forwarding user traffic, the provider edge node (201) determines a local preferential forwarding status for each of the pseudowires (PW13, PW14). The determined preferential forwarding status is active for no more than one of the pseudowires (PW13, PW14). The provider edge node (201) indicates the determined local preferential forwarding status of the pseudowires (PW13, PW14) to remote provider edge nodes (203, 204). Further, the provider edge node (201) receives indications of a remote preferential forwarding status for each of the pseudowires (PW13, PW14) from the remote provider edge nodes (203, 204). The provider edge node (201) then selects that one of the pseudowires (PW13, PW14) as active for which both the local preferential forwarding status and the remote preferential forwarding status is active.Type: GrantFiled: March 23, 2012Date of Patent: March 14, 2017Assignee: Telefonaktiebolaget LM Ericsson (publ)Inventors: Balázs Varga, Peter Balázs Gerö, Shahryar Khan
-
Publication number: 20150314759Abstract: A method for controlling the movement dynamics of a motor vehicle, in which a measured transverse dynamics variable is compared with a transverse dynamics variable which is calculated on the basis of a vehicle model, wherein it is checked whether the vehicle is understeering, and in this case the difference between the measured and the calculated transverse dynamics variables is reduced by increasing braking forces at the wheels of at least the front axle independently of the driver. According to the invention, the time gradient of the braking force at each wheel at which a braking force is increased is selected in accordance with the difference between the measured and calculated transverse dynamics variables. In addition, the invention relates to a brake system for a motor vehicle.Type: ApplicationFiled: November 27, 2013Publication date: November 5, 2015Inventors: Damien Nicolet, Peter Balazs
-
Publication number: 20150043380Abstract: A pseudowire redundancy network comprises a plurality of pseudowires (PW13, PW 14) attached to a provider edge node (201). For selecting an active pseudowire (PW13) to be used for forwarding user traffic, the provider edge node (201) determines a local preferential forwarding status for each of the pseudowires (PW13, PW14). The determined preferential forwarding status is active for no more than one of the pseudowires (PW13, PW14). The provider edge node (201) indicates the determined local preferential forwarding status of the pseudowires (PW13, PW14) to remote provider edge nodes (203, 204). Further, the provider edge node (201) receives indications of a remote preferential forwarding status for each of the pseudowires (PW13, PW14) from the remote provider edge nodes (203, 204). The provider edge node (201) then selects that one of the pseudowires (PW13, PW14) as active for which both the local preferential forwarding status and the remote preferential forwarding status is active.Type: ApplicationFiled: March 23, 2012Publication date: February 12, 2015Applicant: Telefonaktiebolagate L M Ericsson (publ)Inventors: Balázs Varga, Peter Balázs Gerö, Shahryar Khan
-
Patent number: 8700123Abstract: A surgical robot including an imaging system comprising at least one camera, a processor in communication with the imaging system, a manipulation system in communication with the processor, and a visual display in communication with the processor. The processor is operable to calculate a stiffness estimate for an area of an environment based on an environment model of tool-environment interaction data, create a composite image comprising a stiffness map of the stiffness estimate overlaid on an environment image from the at least one camera, and output the composite image on the visual display.Type: GrantFiled: October 20, 2009Date of Patent: April 15, 2014Assignee: The Johns Hopkins UniversityInventors: Allison Mariko Okamura, Tomonori Yamamoto, Peter Balazs Vagvolgyi
-
Publication number: 20110201885Abstract: A surgical robot including an imaging system comprising at least one camera, a processor in communication with the imaging system, a manipulation system in communication with the processor, and a visual display in communication with the processor. The processor is operable to calculate a stiffness estimate for an area of an environment based on an environment model of tool-environment interaction data, create a composite image comprising a stiffness map of the stiffness estimate overlaid on an environment image from the at least one camera, and output the composite image on the visual display.Type: ApplicationFiled: October 20, 2009Publication date: August 18, 2011Applicant: The Johns Hopkins UniversityInventors: Allison Mariko Okamura, Tomonori Yamamoto, Peter Balazs Vagvolgyi