LIGHTING SCIENCE GROUP CORPORATION Patent applications |
Patent application number | Title | Published |
20160125684 | AUTONOMOUS LUMINAIRE ASSEMBLY AND VENDING SYSTEM AND ASSOCIATED METHODS - A system for assembling a luminaire comprising a housing, a computer-controlled manipulation device, and a parts repository defined within the housing and configured to carry a plurality of light modules, a plurality of luminaire housings of various luminaire housing types, and a plurality of optics of various optic types. The system further comprises a programming device configured to program a light module of the plurality of light modules to emit light having lighting characteristics. Each of the light modules are configured to be removably couplable to the computer-controlled manipulation device. The luminaire housings each comprise a locking tab configured to permit the respective light modules to engage therewith, thereby enabling attachment of the respective light modules to the respective luminaire housings. Each of the optics comprise a locking tab configured to permit a respective luminaire housing to engage therewith, enabling attachment of the respective luminaire housing to the respective optic. | 05-05-2016 |
20160116152 | MODULAR STREET LIGHTING SYSTEM - A modular street lighting system comprising an attachment structure, power circuitry positioned, a support structure, and a lighting component comprising a body member comprising a light source housing section and a center component, the center component comprising a plurality of vertically-oriented heat dissipating structures, a circuit housing, circuitry, a rear attachment section, a lighting element in thermal communication, and an optic positioned within the light source housing section. The circuitry is configured to provide power for and control the operation of the lighting element. The lighting element is configured to emit light in the direction of the optic. The optic is configured to reflect light so as to be emitted by the lighting component. The plurality of heat dissipating structures are positioned in thermal communication with the back wall. | 04-28-2016 |
20160084491 | LOW-PROFILE LIGHTING DEVICE AND ATTACHMENT MEMBERS AND KIT COMPRISING SAME - A luminaire comprising a housing formed of thermally conductive polymer with an optic carried thereby, a trim carried by the optic, and a light source. The light source may comprise an LED board comprising a copper layer and a plurality of light emitting diodes (LEDs) disposed on the LED board. The luminaire may also comprise control circuitry operably coupled to the plurality of LEDs, wherein the LED board is positioned in thermal communication with the housing. The luminaire may further comprise a mounting member configured to be attached to each of the housing and an external structure. The control circuitry may be configured to operate the plurality of LEDs such that heat generated by the plurality of LEDs is dissipated by the copper layer of the LED board. | 03-24-2016 |
20160040842 | LIGHTING SYSTEM FOR ACCENTING REGIONS OF A LAYER AND ASSOCIATED METHODS - A system for accenting an appliqué comprising a lighting system comprising a light source configured to emit polychromatic light, and an appliqué configured to be applied to a surface, the appliqué being configured to at least one of scatter light and reflect light within an appliqué wavelength range. The light source is operable to emit alternating first and second polychromatic lights, the first polychromatic light comprising a maxima within the appliqué wavelength range and the second polychromatic light not comprising a maxima within the appliqué wavelength range. | 02-11-2016 |
20150377424 | ELONGATED LED LUMINAIRE AND ASSOCIATED METHODS - A luminaire comprising a lamp comprising an outer structure, a light source configured to emit a source light and carried by the outer structure, a middle structure connected to the outer structure, and a bi-pin base connected to the middle structure. The lamp may further comprise a light guide having an inner surface and an outer surface and a heat dissipating frame having a contact surface in thermal communication with the outer surface of the light guide and comprising a plurality of heat sink rods positioned to abut each other to define the contact surface of the heat dissipating frame. The light source may be configured to emit the source light so as to be incident upon the inner surface of the light guide. The light guide may be configured to change the source light into a shaped light that illuminates a space proximate to the luminaire. | 12-31-2015 |
20150285473 | LIGHTING DEVICE HAVING A MOVABLE HOUSING - A lighting device may include an electrical base, a stabilizer adapted to be matingly connected to the electrical base, a body member, and an optic connected to the body member and defining an optical chamber. A light source may be positioned within the optical chamber and in electrical communication with the electrical base. The stabilizer may be transitionable from an engaged position with the electrical base and a disengaged position with the electrical base. The disengaged position allows for the stabilizer to be translated longitudinally with respect to the base member. The engaged position slidably fixes the stabilizer with respect to the heat sink by reducing space between the electrical base, the enclosure and the heat sink. | 10-08-2015 |
20150226410 | LAMP CONNECTOR - A lamp connector may include a base member, a top member and connector members that connect the base member to the top member. The base member may include arcuate passageways in a bottom portion and a first and second pair of opposing sidewall members that extend upwardly from the bottom portion. The top portion of each of the first pair and second pair of opposing sidewall members may have a cutaway portion having a radius. The radius of the cutaway portion of the first pair of opposing sidewalls may be different from the radius of the second pair of opposing sidewalls. The cutaway portion may be formed to fit a lamp connecting member. The base member may be selectively rotatable with respect to the top member so as to enable engagement between one of the first pair of sidewalls and the second pair of sidewalls with the lamp connecting member. | 08-13-2015 |
20150159853 | SYSTEM FOR ACTIVELY COOLING AN LED FILAMENT AND ASSOCIATED METHODS - A lighting device may include a base, a housing, a driver circuit, an optic, a thermally-conductive fluid, a LED filament structure, and a fluid flow generator. The base may have an electrical contact. The housing may be attached to the base at a first end and have an internal cavity. The driver circuit may be positioned within the internal cavity and may be in electrical communication with the electrical contact. The optic may be attached to a second end of the housing and have an inner surface which may define an optical chamber. The thermally-conductive fluid may be positioned within the optical chamber. The LED filament structure may be positioned within the optical chamber and may be in electrical communication with the driver circuit. The fluid flow generator may be positioned in fluid communication with the optical chamber and may be in electrical communication with the driver circuit. | 06-11-2015 |
20150131281 | System for Directional Control of Light and Associated Methods - A lighting device for emitting light in selective directions including a light source structure member, a plurality of lighting devices attached to the light source structure member, a controller, a power supply, and an optic carried by the light source structure member and including a plurality of facets. Each light source of the plurality of light sources may be positioned such that light emitted thereby is emitted through a facet of the plurality of facets of the first optic. Each facet of the plurality of facets may be configured to redirect light in a direction that is unique from the other facets of the plurality of facets. Additionally, the controller may be configured to selectively operate each light source of the plurality of light sources. Multiple pairs, or combinations, of light source structure members and optics may be included. | 05-14-2015 |
20150102749 | SYSTEM AND METHODS FOR OPERATING A LIGHTING DEVICE - A lighting device may include a light source, a control circuit, and a communication device positioned in communication with the control circuit. The communication device may be configured to receive a transmission from a user device, and the transmission may include a data structure. The data structure may include a show packet and an event packet. The show packet may include an ID string and information regarding a number of event packets associated with the data structure, and the event packet may include information regarding a lighting spectrum, a fade type, a fade duration, and a hold duration. The control circuit may be configured to operate the light source to emit light transitioning from a present light emission having a present spectral power distribution to a light emission having spectral power distribution indicated by the lighting spectrum according to the fade type and fade duration. | 04-16-2015 |
20150077004 | LED DRIVER CIRCUIT AND BLEEDER CIRCUIT - A bleeder circuit includes a first resistor, a thermistor, a transistor, a second resistor, and a diode section. The first resistor biases the transistor into an always-on status. The second resistor prevents current from flowing through the thermistor responsive to a voltage at the positive terminal being greater than a minimum forward voltage of a load. The thermistor increases in electrical resistance, limiting the current flowing therethrough and preventing damage to the load responsive to the load short-circuiting. | 03-19-2015 |
20150049478 | LIGHTING DEVICE WITH FLEXIBLE CIRCUITS HAVING LIGHT-EMITTING DIODES POSITIONED THEREUPON AND ASSOCIATED METHODS - A lighting device has a base, an optic defining an optical chamber, a driver circuit positioned in electrical communication with the base, and a flexible circuit board positioned within the optical chamber along and generally circumscribing a longitudinal axis of the optical chamber and in electrical communication with the driver circuit. The flexible circuit board may comprise a plurality of longitudinal sections. Each longitudinal section may comprise a first inclined section, a second inclined section, and a plurality of light-emitting diodes (LEDs). The first inclined section may be positioned in the direction of the base relative to the second inclined section. The lighting device may further include a longitudinal translation device to translate longitudinally part of the flexible circuit board. | 02-19-2015 |
20150047186 | METHOD OF ASSEMBLING A LIGHTING DEVICE WITH FLEXIBLE CIRCUITS HAVING LIGHT-EMITTING DIODES POSITIONED THEREON - A method of assembling a lighting device that has a base, an optic defining an optical chamber, a driver circuit positioned in electrical communication with the base, and a flexible circuit board positioned within the optical chamber along and generally circumscribing a longitudinal axis of the optical chamber and in electrical communication with the driver circuit. The flexible circuit board may comprise a plurality of longitudinal sections. Each longitudinal section may comprise a first inclined section, a second inclined section, and a plurality of light-emitting diodes (LEDs). The first inclined section may be positioned in the direction of the base relative to the second inclined section. The lighting device may further include a longitudinal translation device to translate longitudinally part of the flexible circuit board. | 02-19-2015 |
20140347850 | SERIALLY-CONNECTED LIGHT EMITTING DIODES, METHODS OF FORMING SAME, AND LUMINAIRES CONTAINING SAME - A luminaire comprising a first and second terminal connected to an alternating current power source having a period, a first LED light source electrically coupled to each of the first and second terminals, and a second LED light source electrically coupled to each of the first and second terminals. The first LED light source comprises a first color conversion layer having a first emission latency. | 11-27-2014 |
20140328055 | CONFIGURABLE LINEAR LIGHT ASSEMBLY AND ASSOCIATED METHODS - A linear light assembly having an elongate tray and a plurality of moveable lighting packages. The elongate tray may provide both mechanical support and thermal management for the plurality of moveable lighting packages. The elongate tray may comprise a medial channel portion with a planar track member and two opposing rim members projecting perpendicularly outward therefrom. Each flange portion may have a U-shaped cross-section. Each moveable package may comprise an assembly tray and an optical assembly having at least one light-emitting device (LED). Each moveable lighting package may be adjustably positioned along and independently removed from the front side of the track member of the elongate tray. Any segmentation of the elongate tray may be characterized by a heat dissipation rate not less than a combined heat generation rate of all moveable lighting packages carried by the segment. A method aspect includes installation of the linear light assembly. | 11-06-2014 |
20140315376 | SYSTEM AND METHODS OF EMBEDDING MATERIAL IN A GLASS SUBSTRATE - A method for embedding a dopant into a glass substrate is provided. The method may include the steps of applying the dopant to a surface of the glass substrate, positioning the glass substrate adjacent to a catalyst such that the dopant is intermediate the catalyst and the glass substrate, heating the glass substrate to a first temperature, operating a directed thermal energy source so as to generate thermal energy incident upon the dopant, reducing the temperature of the glass substrate to a second temperature below the first temperature, and holding the glass substrate at the second temperature for at least a period of time. | 10-23-2014 |
20140310948 | AUTONOMOUS LUMINAIRE ASSEMBLY AND VENDING SYSTEM AND ASSOCIATED METHODS - A system for assembling a luminaire comprising a housing, a computer-controlled manipulation device, and a parts repository defined within the housing and configured to carry a plurality of light modules, a plurality of luminaire housings of various luminaire housing types, and a plurality of optics of various optic types. The system further comprises a programming device configured to program a light module of the plurality of light modules to emit light having lighting characteristics. Each of the light modules are configured to be removably couplable to the computer-controlled manipulation device. The luminaire housings each comprise a locking tab configured to permit the respective light modules to engage therewith, thereby enabling attachment of the respective light modules to the respective luminaire housings. Each of the optics comprise a locking tab configured to permit a respective luminaire housing to engage therewith, enabling attachment of the respective luminaire housing to the respective optic. | 10-23-2014 |
20140301070 | STREET LIGHTING DEVICE FOR COMMUNICATING WITH OBSERVERS AND ASSOCIATED METHODS - A thoroughfare lighting device may include a housing configured to be attached to a thoroughfare surface, having a top surface, a proximal face, a distal face, and first and second opposing sidewalls, a driver circuit, a plurality of light-emitting diodes electrically coupled to the driver circuit comprising a first set of LEDs configured to emit a generally white light, and a second set of LEDs configured to emit colored light that is observable by an observer. The lighting device may also include an optic carried by the housing and positioned in optical communication with the plurality of LEDs. The color of light emitted by the second set of LEDs may be selectable to indicate a condition of the thoroughfare in a direction of travel of the observer. Additionally, the first sidewall may taper in a direction of the distal face. | 10-09-2014 |
20140272330 | THERMALLY CONDUCTIVE SHEET AND ASSOCIATED METHODS - A thermally conductive sheet may include an electrically insulative bottom film, an electrically insulative top film, and an intermediate layer positioned between the bottom film and the top film. The intermediate layer may include a mixture of granulated thermally conductive material and granulated electrically insulating polymer. The granulated electrically insulating polymer is adapted to form a polyimide bridge between the bottom film and the top film. | 09-18-2014 |
20140268870 | EDGE LIT LIGHTING DEVICE - An edge lit lighting device including a housing, a power circuit, a light source, and an optic. The power circuit may be carried by the housing, and adapted to form an electrical connection with an external power source. The light source may be carried by the housing and electrically connected to the power circuit. The optic may be carried by the housing and positioned in optical communication with the light source. The optic may further include a receiving surface positioned adjacent to the light source, and first and second emitting surfaces. The first emitting surface may include a plurality of features configured to redirect light defined as redirected light in a direction of the second emitting surface, the redirected light being emitted from the second emitting surface. The lighting device may further include pluralities of optics of light sources. | 09-18-2014 |
20140268768 | MAGNETICALLY-MOUNTABLE LIGHTING DEVICE AND ASSOCIATED SYSTEMS AND METHODS - A lighting device comprising a heat sink, a light source in thermal communication with the heat sink, and a power source operably coupled with the light source. The heat sink, light source, and power source are positioned in a cavity defined by an enclosure and an optic which present a puck-like shape when assembled. A magnetic attachment member installed in the cavity of the enclosure magnetically binds the lighting device to a ferromagnetic material external to the lighting device. The power source receives an AC input voltage through inductive and/or conductive coupling, and converts the voltage to DC to support light-emitting diodes (LEDs). A controller may operate the light source based on instructions transmitted by a beam adjustment device and/or an occupancy sensor. A method aspect of the invention details steps for assembling the lighting device. | 09-18-2014 |
20140268733 | CONCAVE LOW PROFILE LUMINAIRE WITH MAGNETIC LIGHTING DEVICES AND ASSOCIATED SYSTEMS AND METHODS - A luminaire carried by a lighting fixture, having a generally concave-shaped housing defining an optical chamber and an aperture, and a plurality of lighting devices each having a heat sink, a light source, and a magnetic attachment member. Each lighting device may be positioned about the inner surface of the housing. The magnetic attachment member may magnetically bind a lighting device to pads proximate to ferromagnetic material in the housing. Light emitted by the light source may enter the optical chamber and pass through the aperture in a generally orthogonal direction in relation to the orientation of the device. Electrical power may be delivered by one or more power supply units of either an external or an on-board type, and by using either inductive or conductive coupling. Network interfaces may enable communication of control instructions among a multiple controllers located either within a single luminaire or distributed among multiple luminaires. | 09-18-2014 |
20140268722 | TROUGH LUMINAIRE WITH MAGNETIC LIGHTING DEVICES AND ASSOCIATED SYSTEMS AND METHODS - A luminaire may be carried by a lighting fixture and may have a generally concave elongate-shaped housing defining an optical chamber and an aperture. The luminaire may include a plurality of lighting devices each having a heat sink, a light source, and a magnetic attachment member. The magnetic attachment member may magnetically bind a lighting device to pads proximate to ferromagnetic material in the housing. Light emitted by the light source may enter the optical chamber and pass through the aperture in a generally orthogonal direction in relation to the orientation of the device. Electrical power may be delivered by one or more power supply unit of either an external or an on-board type, and by using either inductive or conductive coupling. Network interfaces may enable communication of control instructions among a multiple controllers located either within a single luminaire or distributed among multiple luminaires. | 09-18-2014 |
20140268695 | LOW-ANGLE THOROUGHFARE SURFACE LIGHTING DEVICE - A lighting device includes a housing attached to a thoroughfare surface. The housing may have a top surface, a proximal face, a distal face, and first and second opposing sidewalls extending between the proximal face and the distal face and extending downwardly from the top surface. The lighting device may further include a first primary optic that may be carried by the housing adjacent the first sidewall that may define a first optical chamber. The lighting device may also further include a first light source that may be positioned within the first optical chamber and may be carried by the housing adjacent the first sidewall. The first sidewall may taper in a direction of the distal face. The first primary optic may be configured to direct light outward and in a direction of the taper in the first sidewall. | 09-18-2014 |
20140265937 | LIGHTING SYSTEM WITH REDUCED PHYSIONEURAL COMPRESSION AND ASSOCIATE METHODS - A system for generating light with reduced physioneural compression. The system includes a first light source operable to emit light within a first wavelength range corresponding to a first photoreceptor and a second light source operable to emit light within a second wavelength range corresponding to a second photoreceptor. The system includes a controller functionally coupled to each of the first light source and the second light source. The controller is configured to alternately operate one of the first light source and the second light source with a duty cycle that is less than a response time of the visual cortex, but greater than a response time of physioneural cells, optionally including a latency between operation of light sources. The system may further include a third light source corresponding to a third photoreceptor. | 09-18-2014 |
20140259468 | SYSTEM FOR ELECTROSTATIC REMOVAL OF DEBRIS AND ASSOCIATED METHODS - A debris removal device for electrostatically removing debris may include a sheet comprising a plurality of conductive traces and a driver circuit positioned in electrical communication with the conductive traces of the sheet. Each conductive trace may be spaced apart from adjacent conductive traces. Furthermore, the driver circuit may be configured to selectively energize subsets of the plurality of conductive trace. The driver circuit may be configured to energize the subsets of the plurality of conductive traces sequentially. | 09-18-2014 |
20140254163 | ROTATABLE LIGHTING DEVICE - A lighting device includes an outer body having a base, a medial portion, and an upper portion. The lighting device may also include an electronic device carrying assembly to carry an assembly base, an assembly top, a heat sink that matingly engages a portion of the assembly top, and a driver circuit. The assembly top may comprise a bottom portion, sidewalls, and a top portion. The bottom portion of the assembly top may include an assembly base connector member that may pivotally engage a portion of the assembly base. The electronic device carrying assembly may be configured to rotate about a first rotational axis and second rotational axis. The first and second rotational axes may be perpendicular to one another. | 09-11-2014 |
20140254162 | ROTATABLE LIGHTING DEVICE - A lighting device includes an outer body having a base, a medial portion, and an upper portion. The lighting device may also include a light source carrying assembly to carry a light source and a lens. The light source carrying assembly may include an assembly base, an assembly top that pivotally engages a portion of the assembly base, and a heat sink. The light source carrying assembly may be configured to rotate about a first rotational axis and to pivot about a second rotational axis. | 09-11-2014 |
20140254144 | HIGH BAY LUMINAIRE - A high bay luminaire system and method for forming the same includes a body member, a power supply, and a light source. The body member includes a plurality of end sections, a plurality of intermediate sections which may be attached to the plurality of end sections, a central section which is positioned between the plurality of intermediate sections and is attached to the plurality of end sections, and a plurality of side sections which are attached to an end section of the plurality of end sections and/or an intermediate section of the plurality of intermediate sections. The light source is in electrical communication with the power supply. The cavity is defined by the plurality of end sections and the central section. The plurality of end sections, the plurality of intermediate sections, the central section, and/or the plurality of side sections are formed of sheet metal. | 09-11-2014 |
20140239845 | SYSTEM FOR GENERATING NON-HOMOGENOUS LIGHT AND ASSOCIATED METHODS - A lighting apparatus comprising a plurality of luminaires, each luminaire comprising a controller configured to operate the luminaire and positioned in communication with a computerized device. Each luminaire may be selectively operable to emit source light characterized by a dominant source light wavelength within a range from 390 nanometers to 750 nanometers. Additionally, at least two of the plurality of luminaires may be operable to emit source lights with different dominant source light wavelengths, and such that one or more source lights emitted by the plurality of luminaires may combine to form a combined light at a distance from the plurality of luminaires defined as a combining distance. Furthermore, the dominant source light wavelength of at least some of the luminaires of the plurality of luminaires may be variable with time. | 08-28-2014 |
20140239818 | LIGHTING SYSTEM FOR ACCENTUATING REGIONS OF A LAYER AND ASSOCIATED METHODS - A lighting system for accenting a region of a target surface comprising a color matching engine, a plurality of light sources, a color capture device configured to measure light reflected by a target surface, and a computerized device configured to operate the plurality of light sources to emit an analysis light so as to be incident upon the target surface and identify a region of the target surface that reflects two or more wavelength ranges of light using a pattern recognition algorithm, defining a detected pattern having wavelength ranges. The color matching engine is configured to perform a matching operation that operates to determine dominant wavelength(s) of the wavelength ranges and polychromatic lights including or excluding dominant wavelength(s). The computerized device operates the light sources to emit a combined light being sequentially each of the polychromatic lights. | 08-28-2014 |
20140217914 | PROGRAMMABLE LUMINAIRE AND PROGRAMMABLE LUMINAIRE SYSTEM - A programmable luminaire system may comprise a programmable luminaire comprising an optic defining an optical chamber, a light source comprising a plurality of light-emitting elements, a controller operably coupled with the plurality of light-emitting elements, and an electrical connector electrically coupled with the controller. The system may further comprise a computerized device configured to electrically communicate with the programmable luminaire. The computerized device may be configured to transmit data to the programmable luminaire. The programmable luminaire may be configured to receive the data from the computerized device at the electrical connector. The controller may be configured to be programmed responsive to the data received by the controller. | 08-07-2014 |
20140211295 | WAVELENGTH CONVERTING LIGHTING DEVICE AND ASSOCIATED METHODS - A lighting device according to another embodiment of the invention for directing source light within a source wavelength range in a blue wavelength range in a desired output direction may comprise a MEMS device that may include a DMD that includes an array of MEMS cells, each MEMS cell including an operative surface to receive and redirect the source light towards the desired output direction. The array of MEMS cells may include first and second pluralities of MEMS cells including first and second conversion coatings applied to the operative surfaces thereof configured to convert source light into first and second wavelength ranges. Furthermore, the repositionable surface of each MEMS cell may be positionable between multiple angles to reflect the converted light. The lighting device may comprise a third plurality of MEMS cells where the operative surfaces thereof is devoid of a conversion coating, or, alternatively, comprises a third conversion coating. | 07-31-2014 |
20140197746 | SERIALLY-CONNECTED LIGHT EMITTING DIODES, METHODS OF FORMING SAME, AND LUMINAIRES CONTAINING SAME - A method of making a substantially monolithic lighting device comprising serially connected LEDs and lighting systems including the same. The serially connected LEDs may be comprised in a monolithic device comprising a first LED, a layer of conductive material, and a second LED positioned thereupon. The serially connected LEDs may also be electrically coupled to a plurality of resistors obviating the necessity of an AC/DC power converter when a luminaire containing the serially connected LEDs is connected to an AC power source. | 07-17-2014 |
20140177238 | SEALED ELECTRICAL DEVICE WITH COOLING SYSTEM AND ASSOCIATED METHODS - An electrical device and method are presented, the device having an enclosure defining an interior volume sealed from the environment and an electronic lighting apparatus, which may include a heat generating element such as a light source, a heat sink, and a fluid flow generator. The heat sink may be positioned partially within the sealed interior volume and adjacent the heat generating element and transfer heat therefrom. The fluid flow generator may create a flow of fluid to transport heat away from the heat sink and to the enclosure. The electronic lighting apparatus may be carried by the enclosure and partially disposed within the interior volume of the enclosure. The electrical device may further include an optic carried by the enclosure that may cooperate with the enclosure to define the sealed interior volume. | 06-26-2014 |
20140177214 | ELONGATED LED LUMINAIRE AND ASSOCIATED METHODS - A fluorescent tube retrofit luminaire includes a lamp, a light guide, and a heat dissipating frame. The lamp may include a bi-pin base, middle structure, and outer structure, which may include a light-emitting diode (LED)-based light source in thermal communication with a finned heat sink section of the middle structure. Light emitted from the light source may be distributed generally along the length and/or width of the light guide. A bi-pin connector in the light guide may attach the luminaire to a first fluorescent socket. The bi-pin base may be received by a mounting aperture in the light guide before anchoring the luminaire to a second fluorescent socket using a pin-lock. The heat dissipating frame may be in thermal communication with both the light guide and the heat sink section of the lamp. | 06-26-2014 |
20140168932 | MODULAR SEGMENTED ELECTRONICS ASSEMBLY - A modular segmented street lighting device comprises an attaching member that is attachable to a street lamp pole, the attaching member comprising an electrical connector adapted to be electrically coupled to a power source associated with the street lamp pole. The modular segmented street lighting device also includes a docking member that is removably attachable to the attaching member, and comprises a power supply unit, and a load member that is removably attachable the attaching member and/or the docking member. The docking member is adapted to electrically couple the power supply unit to the electrical connector of the attaching member when the docking member is attached to the attaching member. The load member is adapted to electrically couple the lighting device to the power supply unit when the load member is attached to the attaching member and/or the docking member. | 06-19-2014 |
20140133153 | Luminaire Having Vented Optical Chamber And Associated Methods - A luminaire may include an electrical base, an optic defining an optical chamber, an intermediate member that may be positioned between the electrical base and the optic, and a light source. The intermediate member may include a main body and a plurality of structural supports that may be connected to the main body which may be configured to carry an upper member. A plurality of voids may be positioned between the respective plurality of structural supports to position the optical chamber in optical communication with the environment surrounding the luminaire therethrough. The upper member may be configured to carry the optic and the light source may be electrically coupled to the electrical base and may be positioned within the optical chamber. The optic may be configured to redirect at least a portion of light incident thereupon in the direction of the plurality of voids. | 05-15-2014 |
20140111966 | LOW-ANGLE THOROUGHFARE SURFACE LIGHTING DEVICE - A lighting device may include a housing configured to be attached to a thoroughfare surface. The housing may include a top surface, a proximal face, a distal face, and first and second sidewalls extending between the proximal face and the distal face. Circuitry may be carried by the housing. A first primary optic may be carried by the housing adjacent the first sidewall to define a first optical chamber, and a first light source may be positioned within the first optical chamber and carried by the housing adjacent the first sidewall. The first sidewall may have a first slanted section, and an axis of the first slanted section may skew to a longitudinal axis of the lighting device. | 04-24-2014 |
20140104858 | LIGHTING DEVICE WITH INTEGRALLY MOLDED BASE AND ASSOCIATED METHODS - A lighting device includes a body defining a circuitry chamber and including an integrally molded base. The lighting device may also include a light source carried by the body and an electrical contact carried by the body. The lighting device may further include a driver circuit in electrical communication with the light source and the electrical contact. The driver circuit and/or the electrical contact may be integrally connected to the body. A method aspect of the invention is for assembling a lighting device. The method may include integrally forming the base and the body to define an integrally molded base, integrally connecting the driver circuit and/or the electrical contact to the body and fixedly attaching the light source to the body. The method may further include positioning the light source in electrical communication with the driver circuit and positioning the electrical contact in electrical communication with the driver circuit. | 04-17-2014 |
20140104845 | LUMINAIRE WITH INTEGRALLY MOLDED COOLING SYSTEM AND ASSOCIATED METHODS - A luminaire comprising a base, an optic attached to the base, a heat sink integrally molded within the base, and a heat-generating element comprising an LED-based light source in thermal communication with the heat sink. The light source may be positioned such that light emitted by the LED is emitted into an optical chamber defined by the first housing. A second housing may comprise channels formed by opposing pairs of fin guards. The heat sink may comprise a plurality of fin assemblies connected along a perimeter of a heat-generating element contacting portion of the heat sink. A proximal edge of each fin assembly may be positioned adjacent to an outer surface of the first housing. A distal edge of each fin assembly may be positioned so as to be coextensive with a respective channel and substantially exposed to the environment external to the luminaire. | 04-17-2014 |
20140104834 | Luminaire With Modular Cooling System and Associated Methods - A luminaire comprising a base, a heat sink modularly connected to the base, and a heat-generating element in thermal communication with the modular heat sink. The heat sink may include a heat-generating element contacting portion, and a plurality of heat sink segments connected to and extending outwardly therefrom. Each of the heat sink assemblies segments may comprise at least one fin assembly. Each heat sink segment may pass through a respective plurality of passageways in the top portion of the base so that the heat sink segments may matingly engage the medial portion of the base. A method for forming a heat sink comprises fabricating a heat-generating element contacting portion, constructing a plurality of heat sink segments, and assembling the plurality of heat sink segments to connect to and extend outwardly from the bottom surface of the heat-generating element contacting portion. | 04-17-2014 |
20140078748 | LIGHT DIRECTING APPARATUS - A light directing apparatus includes an optical substrate having first and second sides, a compound lens outer surface (CLOS) on a first portion of the first side, and first and second protrusions on a second portion of the first side. The CLOS is in optical communication with the second side, the CLOS having mirror image symmetry about a medial plane that contains a centerline of the CLOS. The first protrusion is disposed proximate the CLOS, and in optical communication with the second side. The second protrusion is disposed proximate the first protrusion, and in optical communication with the second side. The first protrusion is disposed between the second protrusion and the CLOS. The first and second protrusions each have a curved apex such that first and second planar section cuts through the optical substrate perpendicular to the medial plane cut twice through each curved apex. | 03-20-2014 |
20140056026 | LOW PROFILE LUMINAIRE WITH LIGHT GUIDE AND ASSOCIATED SYSTEMS AND METHODS - A low profile luminaire to be carried by a lighting fixture. The luminaire may include a light source that comprises light-emitting diodes (LEDs), a heat sink thermally coupled to and disposed diametrically outboard of the light source, a reflector in optical communication with and disposed diametrically inboard of the light source, and a light guide in optical communication with at least one of the light source and the reflector and disposed therebetween. Light emitted from the light source may be reflected by the reflector into an edge of the light guide. Light propagating through the light guide may be projected into the environment at a uniform luminance. The luminaire may be dimensioned to cover a nominally sized four-inch can light fixture and/or electrical junction box. A method aspect of the invention details steps for assembling the low profile luminaire with light guide. | 02-27-2014 |
20140055619 | LUMINAIRE TO EMIT LIGHT RESPONSIVE TO AN EMERGENCY ALERT AND ASSOCIATED METHODS - A luminaire may include a wall mount, a driver circuit housing connected to the wall mount, a sensor housing connected to the driver circuit housing, a light source housing connected to the sensor housing, and a light source array carried by the light source housing. A controller may be positioned in electrical communication with an emergency alert system, a sensor carried by the sensor housing and the light source. The light source may be capable of emitting illuminating light, and the controller may be configured to receive an emergency alert from the emergency alert system. The controller may be configured to operate the light source to emit light within a wavelength range associated with a color responsive to the emergency alert and the color of the light emitted may be associated with a particular emergency. | 02-27-2014 |
20140029262 | ROTATABLE LIGHTING FIXTURE - A lighting fixture comprising a stationary housing and a mobile housing carried by the stationary housing is provided. The lighting fixture also includes a lens carried by the mobile housing, a first rotation mechanism operatively connected to the connection rod, and a second rotation mechanism carried by the encasing member. The connection rod may protrude at least partially through the backing of the mobile housing. The first rotation mechanism may be configured to rotate the mobile housing about a first rotational axis, and the second rotation mechanism is configured to rotate the mobile housing about a second rotational axis. The mobile housing is configured to rotate about the first rotational axis such that portions of the lens are selectively positionable below a plane defined by a lower surface of the encasing member. | 01-30-2014 |
20140028210 | WALL-MOUNTABLE LUMINAIRE AND ASSOCIATED SYSTEMS AND METHODS - A wall-mountable luminaire may include interchangeable adapter plugs having first and second male connectors, the first of which connects electrically and mechanically to an external electrical socket, and the second of which connects electrically and mechanically to an on-board multi-standard socket. A power supply may detect a plurality of electrical power types received from the multi-standard socket, and may condition that input power to drive LEDs. Remote computing devices may transmit control data wirelessly to direct a controller to selectively operate the LEDs to form a modified distribution pattern. A housing assembly may support wall mounting of the luminaire, and trim assembly may define a cavity that provides aesthetic and protective cover for the components carried by the housing assembly. A method aspect of the invention details steps for operating the luminaire. | 01-30-2014 |
20140015438 | TUNABLE LIGHT SYSTEM AND ASSOCIATED METHODS - Methods of tuning a luminaire having a first light source, a second light source, and a third light source, wherein each light source produces a different color of light including receiving a selected warmth, include the step of determining whether the light emitted by the first light source matches the amount of light needed from the first light source to match the selected warmth. It may be determined whether the first and second light sources are emitting sufficient light, and each may be adjusted to emit light having the selected warmth. | 01-16-2014 |
20130314892 | COLOR CONVERSION OCCLUSION AND ASSOCIATED METHODS - A light converting device is described for receiving source light within a source wavelength range, converting the source light into a converted light, and reflecting the converted light to a desired output direction. The lighting device may use a color conversion occlusion to receive the source light and reflect a converted light in the desired output direction. The converted light may be intermediately reflected by the enclosure, or alternatively passed through the enclosure, as it is directed in the desired output direction. | 11-28-2013 |
20130313997 | HIGH EFFICACY LIGHTING SIGNAL CONVERTER AND ASSOCIATED METHODS - A signal adapting chromacity system to control that may include a signal conversion engine to receive a source signal designating a color of light defined by a two spatial plus luminance dimensional color space, such as the xxY color space. The signal conversion engine may convert the source signal to a three dimensional color space defined within a subset gamut of a full color gamut, such as an RGW, RBW, or GBW color space. The subset gamut may include a first color light, a second color light and a high efficacy light. The signal conversion engine may perform a conversion operation to convert the source signal to an output signal, using the output signal to drive light emitting diodes (LEDs). The conversion operation may be a matrix, angular or linear conversion operation. | 11-28-2013 |
20130301238 | LUMINAIRE HAVING A VENTED ENCLOSURE - A lighting device may include an electrical base and an enclosure which may include one or more vents. An intermediate member may be positioned between the electrical base and the enclosure. A light source may be positioned adjacent to the intermediate member to be enclosed by the enclosure and also positioned in electrical communication with the electrical base. A controller may be carried by the intermediate member and also positioned in electrical communication with the electrical base. A driver circuit may be carried by the intermediate member and also positioned in electrical communication with the electrical base. The vents may be configured to permit the flow of fluid through an interior portion of the enclosure so that the light source is in thermal communication with the fluid flow. | 11-14-2013 |
20130296976 | DYNAMIC WAVELENGTH ADAPTING DEVICE TO AFFECT PHYSIOLOGICAL RESPONSE AND ASSOCIATED METHODS - A light converting device is described for receiving source light within a source wavelength range, converting the source light into an interim light, and converting the interim light into a converted light. The lighting device may include an enclosure with an application of a wide production conversion coating and a narrow production conversion coating to perform a series of wavelength conversion operations on a source light to produce a converted light. | 11-07-2013 |
20130294087 | LUMINAIRE WITH PRISMATIC OPTIC - A luminaire with a prismatic optic permits the nearly uniform distribution of light about the luminaire. The prismatic optic permits the use of directional light sources, such as light emitting diodes, while maintaining the uniform light distribution. Furthermore, a concave shape of the optic further enables uniform light distribution. When light emitting diodes are used, the luminaire further includes a heat sink to maintain a desirable operational temperature without negatively affecting the light distribution properties of the luminaire. | 11-07-2013 |
20130294071 | LUMINAIRE WITH PRISMATIC OPTIC - A luminaire with a prismatic optic permits the nearly uniform distribution of light about the luminaire. The prismatic optic permits the use of directional light sources, such as light emitting diodes, while maintaining the uniform light distribution. When light emitting diodes are used, the luminaire further includes a heat sink to maintain a desirable operational temperature without negatively affecting the light distribution properties of the luminaire. | 11-07-2013 |
20130293158 | ADAPTIVE LIGHT SYSTEM AND ASSOCIATED METHODS - An adaptive light system including a color matching engine, a controller, and a plurality of light sources each configured to emit a source light. The color matching engine determines a dominant wavelength of a selected color, and a combination of the light sources that the controller may operate to emit a combined wavelength that approximately matches the dominant wavelength of the selected color. A color capture device transmits a source color signal designating the selected color. A method of adapting light comprises receiving a selected color, converting a value representing a dominant wavelength of the selected color, determining a combination of and percentages of colors emitted by the plurality of light sources that may be combined to form an adapted light that matches the selected color, and operating the light sources along with a white light to emit the adapted light. | 11-07-2013 |
20130293150 | ADAPTIVE ANTI-GLARE LIGHT SYSTEM AND ASSOCIATED METHODS - An adaptive anti-glare light system including a sensor, a color selection engine, a controller, and a plurality of light sources each configured to emit a source light. The sensor transmits a source color signal designating a reflected light characterized by a detected color and a discomfort glare rating. The color selection engine determines a dominant wavelength of the detected color, and a combination of the light sources that the controller may operate to emit a combined wavelength that matches the dominant wavelength of the detected color. A method of adapting light as a countermeasure to glare comprises receiving the detected color, determining a subset of the plurality of light sources that may be combined to form an adapted light that matches the detected color, and operating the light sources with a white light to emit the adapted light at or above a threshold discomfort glare level. | 11-07-2013 |
20130293148 | Tunable Lighting Apparatus - A luminaire provides light having a distribution pattern with high center beam candle power and a gradual gradient across a wide area. The luminaire includes a light source having first and second sets of light emitting elements selected and positioned to achieve the desired light distribution pattern. The luminaire further includes an optic configured to refract light emitted from the light source to achieve the desired light distribution pattern. | 11-07-2013 |
20130293124 | SYSTEM FOR GENERATING LIGHT HAVING A CONSTANT COLOR TEMPERATURE AND ASSOCIATED METHODS - A lighting system and method for maintaining constant color output. The lighting system may include a first light-emitting diode (LED) configured to emit a first color, a second LED configured to emit a second color, control circuitry configured to control the operation of the first LED, and a temperature sensor positioned in thermal communication with at least one of the first LED and the second LED and in electrical communication with the control circuitry. The luminous intensity of the second LED may vary with temperature. The control circuitry may be configured to control the luminous intensity of the first LED responsive to a temperature indication from the temperature sensor. | 11-07-2013 |
20130293108 | CONSTANT CURRENT PULSE-WIDTH MODULATION LIGHTING SYSTEM AND ASSOCIATED METHODS - A lighting system comprising a constant current power source one or more sets of light emitting elements, and associated circuitry. The light emitting elements may be light emitting diodes (LEDs) that have been selected to emit light having specific wavelengths corresponding to specific colors. The lighting system may selectively control the intensity of each set of LED by utilizing pulse-width modulation. The sets of LEDs may be serially connected and selectively operated independently of each other set of LEDs. | 11-07-2013 |
20130293106 | CANOPY LIGHT SYSTEM AND ASSOCIATED METHODS - A retrofit canopy light system is provided that has a multi-output power supply assembly in electrical communication with a plurality of luminaire assemblies through a plurality of distribution wires. In one embodiment, each luminaire assembly may receive an electric current from a respective distribution wire extending from the power supply assembly. The power supply assembly may convert high-voltage AC to low-voltage, regulated DC. Each luminaire assembly may comprise a light source and a low profile, heat-dissipating frame in thermal and mechanical communication with the light source. The heat-dissipating frame may be constructed of a thermally conductive material, and may include a plurality of heat sink fins and bars. The heat-dissipating frame may present a substantially flat surface configured for flush mounting adjacent to an existing canopy fixture. | 11-07-2013 |
20130292550 | Motion Detection System and Associated Methods - A lighting system which includes a light source to emit illuminating light and sense reflected light from an environment. The light source may be included in an array to be selectively enabled and disabled by the controller. The array may include a plurality of light sources, each of which may be sensitive to a wavelength respective to each light source, thus providing the array sensitivity to one or more wavelength. Each of the plurality of light sources in the array may be selectively operable between a sensing operation and an emitting operation. The sensing operation may be defined by the light source sensing the environmental light, and the emitting operation being defined by the light source emitting the illuminating light. The controller may selectively operate the light source between the passive operation and the active operation. | 11-07-2013 |
20130278173 | LIGHTING SYSTEM FOR ACCENTING REGIONS OF A LAYER AND ASSOCIATED METHODS - A system and method for accenting regions of a layer including a lighting system including a plurality of light sources operable to emit polychromatic light and a layer having two or more regions configured to diffusively scatter light within a wavelength range while absorbing light not within the wavelength range. The regions may be configured to represent recognizable characters or images, and may form a sequence. The lighting system may highlight the regions individually or simultaneously. The layer may be attachable to a surface and may further include non-highlighted regions. The system may also include appliqués applied to a surface and a cover layer transparent to certain wavelengths of light that the appliqués scatter. | 10-24-2013 |
20130271818 | WAVELENGTH CONVERTING LIGHTING DEVICE AND ASSOCIATED METHODS - A lighting device is described for receiving source light within a source wavelength range, converting the source light into a converted light, and reflecting the converted light to a desired output direction. The lighting device may use a micro electromechanical system (MEMS) device to receive and redirect the source light to the desired output direction. A conversion coating may be applied to the operative surface of the MEMS device to convert the source light into a converted light. | 10-17-2013 |
20130271036 | PROGRAMMABLE LUMINAIRE SYSTEM - A system comprising a luminaire, a computerized device, and a docking member establishing electrical communication between the luminaire and the computerized device is disclosed. The luminaire may include an optic, a light source, a controller operably coupled to the light source, and an electrical connector configured to couple with the dock. The light source may be operable to emit light having a variety of characteristics, such as luminous intensity, color, color temperature, and any other characteristics of light. The controller may be programmable by a signal received from the computerized device via the dock. | 10-17-2013 |
20130257312 | SYSTEM FOR GENERATING NON-HOMOGENOUS BIOLOGICALLY-ADJUSTED LIGHT AND ASSOCIATED METHODS - A lighting system including a plurality of luminaires capable of generating polychromatic light having a dominant wavelength in the visible spectrum and arranged into an array and a computerized device electrically coupled to the plurality of luminaires so as to selectively operate each individual luminaire to produce source light varying with each other and with time. The computerized device operates the luminaire such that each luminaire emits a source light, the source lights combining to form a combined light having selected characteristics. Each of the plurality of luminaires may be operable to emit light having increased spectral opponency, thereby reducing melatonin suppression. The source lights, when perceived directly, recreate a lighting scenario having varying lighting characteristics. | 10-03-2013 |
20130223055 | LOW PROFILE LIGHT HAVING ELONGATED REFLECTOR AND ASSOCIATED METHODS - A luminaire to be carried by a lighting fixture. The luminaire may include a housing, a primary optic disposed within the housing having a reflective inner surface defining an optical chamber, a light source, and a heat sink defining an aperture through which light may propagate. The light source may include a plurality of light-emitting diodes (LEDs). The luminaire may further include a secondary optic positioned adjacent to the light source that may collimate and/or refract light emitted by the light source, and may form a seal between the light source and the optical chamber. The luminaire may further include a color conversion layer configured to change the color of light emitted by the light source. | 08-29-2013 |
20130201290 | OCCUPANCY SENSOR AND ASSOCIATED METHODS - A device to detect occupancy of an environment includes a sensor to capture video frames from a location in the environment. The device may compare rules with data using a rules engine. The microcontroller may include a processor and memory to produce results indicative of a condition of the environment. The device may also include an interface through which the data is accessible. The device may generate results respective to the location in the environment. The microcontroller may be in communication with a network. The video frames may be concatenated to create an overview to display the video frames substantially seamlessly respective to the location in which the sensor is positioned. The overview may be viewable using the interface and the results of the analysis performed by the rules engine may be accessible using the interface. | 08-08-2013 |
20130194821 | REMOTE LIGHT WAVELENGTH CONVERSION DEVICE AND ASSOCIATED METHODS - A remote light wavelength conversion device is provided for converting a source light emitted from a light source within a source wavelength range into a converted light within a converted wavelength range. The remote light wavelength conversion device may include a waveguide and a color conversion optic. The waveguide may include a first end and a second end and the color conversion optic may be adjacently located at the second end of the waveguide. The color conversion optic may convert the source light transmitted through the waveguide to the converted light. The waveguide may be a fiber having a core diameter of less than about ten micrometers. | 08-01-2013 |
20130188330 | DUAL CHARACTERISTIC COLOR CONVERSION ENCLOSURE AND ASSOCIATED METHODS - A light converting device includes a wide production conversion material and a narrow production conversion material to convert the source light into a first and second interim light, respectively. The conversion materials may be included in, or applied to, an enclosure. The first and second interim light may be included in a converted light. The converted light may be included with the source light to create a white light. The wide production conversion material may have wide absorption and scatter characteristics. The narrow production conversion material may have narrow absorption and scatter characteristics to substantially reduce inefficiencies caused by double conversion of light. | 07-25-2013 |
20130137201 | SOLID STATE LED BRIDGE RECTIFIER LIGHT ENGINE - A method of forming a light emitting diode (LED) for a solid state light engine includes depositing a layer of tacky resin onto a die portion of the LED, adhering a plurality of phosphor particles to the tacky resin, and encapsulating the layer of tacky resin and the plurality of phosphor particles in another layer of resin. | 05-30-2013 |
20130135847 | REMOTE LIGHTING DEVICE AND ASSOCIATED METHODS - A lighting device to receive solar light by a color conversion optic and convert the solar light into a powering light, increasing the efficiency of electrical power generation using a photovoltaic system. The electrical power may be stored by a battery, from which it may be drawn to drive a lighting element to emit illuminating light. The illuminating light may be received and converted by the color conversion optic into a converted light, providing illumination in a desired wavelength range. The color conversion optic may be positionable adjacent to the photovoltaic system or the lighting element to convert light. A controller may be included to control the color conversion operation. The controller may be connected to a sensor or a timer. | 05-30-2013 |
20130129349 | WAVELENGTH SENSING LIGHTING SYSTEM AND ASSOCIATED METHODS FOR NATIONAL SECURITY APPLICATION - A wavelength sensing lighting system may include a light source, a sensor and a controller. One or more light sources and sensors may be included in an array. The light source may emit an illuminating light and the sensor may sense an environmental light. The illuminating light may include data light. The lighting system may include a plurality of nodes connected in a network. The nodes may communicate by emitting and receiving the data light, which may be analyzed by the controller. The light source and the sensor may be provided by a light emitting semiconductor device that is capable of emitting illuminating light and receiving environmental light. A conversion material may convert the wavelength of a source light into a converted light. The conversion material may increase the wavelength range of light emittable and detectable by the lighting system. | 05-23-2013 |
20130120963 | LOW PROFILE LIGHT HAVING CONCAVE REFLECTOR AND ASSOCIATED METHODS - A luminaire to be carried by a lighting fixture. The luminaire may include a housing, a primary optic disposed within the housing having a reflective inner surface defining an optical chamber, a light source, and a heat sink defining an aperture through which light may propagate. The light source may include a plurality of light-emitting diodes (LEDs). The luminaire may further include a secondary optic positioned adjacent to the light source that may collimate and/or refract light emitted by the light source, and may form a seal between the light source and the optical chamber. The luminaire may further include a color conversion layer configured to change the color of light emitted by the light source. | 05-16-2013 |
20130099696 | SYSTEM FOR INDUCTIVELY POWERING AN ELECTRICAL DEVICE AND ASSOCIATED METHODS - An inductive coupling system for delivering power from an induction assembly attached to a first side of a structure to a load assembly positioned on a second side of a structure. The induction assembly may couple with the load assembly so as to removably attach the load assembly to the second side of the structure. Furthermore, a triggering device in the load assembly may initiate the inductive coupling between the induction and load assemblies. | 04-25-2013 |
20130088155 | WAVELENGTH SENSING LIGHTING SYSTEM AND ASSOCIATED METHODS - A wavelength sensing lighting system may include a light source, a sensor and a controller. One or more light sources and sensors may be included in an array. The light source may emit an illuminating light and the sensor may sense an environmental light. The illuminating light may include data light. The lighting system may include a plurality of nodes connected in a network. The nodes may communicate by emitting and receiving the data light, which may be analyzed by the controller. The light source and the sensor may be provided by a light emitting semiconductor device that is capable of emitting illuminating light and receiving environmental light. A conversion material may convert the wavelength of a source light into a converted sight. | 04-11-2013 |
20130070472 | REMOTE LIGHT WAVELENGTH CONVERSION DEVICE AND ASSOCIATED METHODS - A remote light wavelength conversion device is provided for converting a source light emitted from a light source within a source wavelength range into a converted light within a converted wavelength range. The remote light wavelength conversion device may include a waveguide and a color conversion optic. The waveguide may include a first end and a second end and the color conversion optic may be adjacently located at the second end of the waveguide. The color conversion optic may convert the source light transmitted through the waveguide to the converted light. | 03-21-2013 |
20130070439 | COLOR CONVERSION OCCLUSION AND ASSOCIATED METHODS - A light converting device is described for receiving source light within a source wavelength range, converting the source light into a converted light, and reflecting the converted light to a desired output direction. The lighting device may use a color conversion occlusion to receive the source light and reflect a converted light in the desired output direction. The converted light may be intermediately reflected by the enclosure as it is directed in the desired output direction. | 03-21-2013 |
20130033170 | SOLID STATE LED BRIDGE RECTIFIER LIGHT ENGINE - A solid state light engine includes a bridge rectifier having a rectified output. At least one light emitting diode (LED) is connected to the bridge rectifier, the at least one LED including a die portion, a layer of phosphor free resin positioned upon the die portion, and a plurality of phosphor particles adhered to the layer of phosphor free resin. A pair of AC power input terminals are electrically connected to the input of the bridge rectifier for use in coupling the bridge rectifier to an AC power source. A pair of DC power input terminals are connected to the rectified output of the bridge rectifier for use in coupling the bridge rectifier to a circuit productive of a DC voltage at the pair of DC power terminals. The layer of phosphor free resin includes a polymeric resin. | 02-07-2013 |
20130021802 | SEALED ELECTRICAL DEVICE WITH COOLING SYSTEM AND ASSOCIATED METHODS - An electrical device and method are presented, the device having an enclosure defining an interior volume sealed from the environment and an electronic lighting apparatus, which may include a heat generating element such as a light source, a heat sink, and a fluid flow generator, and optionally a support offsetting the fluid flow generator form the heat sink. The heat sink may be positioned adjacent the heat generating element and transfer heat there from. The fluid flow generator may create a flow of fluid to transport heat away from the heat sink and to the enclosure. The electronic lighting apparatus may be carried by the enclosure and partially disposed within the interior volume of the enclosure. The electrical device may further include an optic carried by the enclosure. | 01-24-2013 |
20120306382 | SUSTAINABLE OUTDOOR LIGHTING SYSTEM AND ASSOCIATED METHODS - A light fixture is described that measures the ambient light intensity and determines whether to provide illumination. The light fixture may further determine a traffic status proximate the fixture and adjust the illumination accordingly. A network of light fixtures is also provided, the light fixtures communicating data to each other and determining illumination states therefrom. | 12-06-2012 |
20120287649 | LIGHT DIRECTING APPARATUS - A light directing apparatus includes an optical substrate having a first side and a second side, a compound lens outer surface on a first portion of the first side of the optical substrate, the compound lens outer surface disposed in optical communication with the second side of the optical substrate, a first protrusion on a second portion of the first side of the optical substrate, the first protrusion disposed proximate the compound lens outer surface, and disposed in optical communication with the second side of the optical substrate, and a second protrusion on the second portion of the first side of the optical substrate, the second protrusion disposed proximate the first protrusion, and disposed in optical communication with the second side of the optical substrate. | 11-15-2012 |
20120287271 | INTELLIGENT SECURITY LIGHT AND ASSOCIATED METHODS - A lighting device capable of detecting a condition in an environment includes a sensor to capture a video frame from a location in the environment. The lighting device may include a microcontroller, a processor and memory. The sensor may be electrically connected to the microcontroller, and the video frame may be transmitted to the microcontroller as data. The lighting device may also include a light source electrically connected to and controlled by the microcontroller and a rules engine stored in the memory. The processor may compare the data to rules contained in the rules engine to produce an output. The lighting device may further include an interface through which the output is accessible. After an analysis is conducted, an output may be generated responsive to detection of an anomaly. | 11-15-2012 |
20120287245 | OCCUPANCY SENSOR AND ASSOCIATED METHODS - A device to detect occupancy of an environment includes a sensor to capture video frames from a location in the environment. The device may compare rules with data using a rules engine. The microcontroller may include a processor and memory to produce results indicative of a condition of the environment. The device may also include an interface through which the data is accessible. The device may generate results respective to the location in the environment. The microcontroller may be in communication with a network. The video frames may be concatenated to create an overview to display the video frames substantially seamlessly respective to the location in which the sensor is positioned. The overview may be viewable using the interface and the results of the analysis performed by the rules engine may be accessible using the interface. | 11-15-2012 |
20120286700 | HIGH EFFICACY LIGHTING SIGNAL CONVERTER AND ASSOCIATED METHODS - A signal adapting chromacity system to control that may include a signal conversion engine to receive a source signal designating a color of light defined by a two spatial plus luminance dimensional color space, such as the xxY color space. The signal conversion engine may convert the source signal to a three dimensional color space defined within a subset gamut of a full color gamut, such as an RGW, RBW, or GBW color space. The subset gamut may include a first color light, a second color light and a high efficacy light. The signal conversion engine may perform a conversion operation to convert the source signal to an output signal, using the output signal to drive light emitting diodes (LEDs). The conversion operation may be a matrix, angular or linear conversion operation. | 11-15-2012 |
20120286673 | CONFIGURABLE ENVIRONMENTAL CONDITION SENSING LUMINAIRE, SYSTEM AND ASSOCIATED METHODS - A luminaire with a light source, controller, and sensors to emit light into an environment is described. The controller may include a processor and memory to analyze data relating to conditions in the environment and to control the light source emitting light. The sensors may be in communication with the controller to detect conditions in the environment and generate data relating to same. The data may be receivable by the controller. Rules affect operation of the luminaire, which may be manipulated using an interface. The luminaire may communicate with devices connected through a network. Light and an auxiliary signal may be emitted substantially simultaneously to provide spatial awareness. | 11-15-2012 |
20120286672 | WIRELESS PAIRING SYSTEM AND ASSOCIATED METHODS - A wireless pairing system and method are presented, the system having a network and a luminaire, which may include an electrical base, an enclosure, and a heat sink, as well as a light source, a network interface, a camera, and a controller in communication with the electrical base. The light source, the network interface, and the camera may be in communication with the controller, the controller having a central processing unit (CPU), and an input/output (I/O) interface. The controller, the camera, the light source and the network interface may be carried by the enclosure. The camera may capture an image having a configuration code associated with the network and the CPU may analyze the image to determine the existence of the configuration code. The CPU may then configure the network interface to connect the luminaire to the network so that the luminaire may be operated or monitored through the network. | 11-15-2012 |
20120285667 | SOUND BAFFLING COOLING SYSTEM FOR LED THERMAL MANAGEMENT AND ASSOCIATED METHODS - A cooling system for light emitting diodes (LEDs) is provided that may comprise acoustic baffle members, a micro-channel heatsink that includes fins adjacent to the LEDs, and a fluid flow generator adjacent to the micro-channel heatsink that directs a fluid in a flow direction. The fluid flow generator may include an input to receive the fluid and an exit to exhaust the fluid, which may contact a surface area of the fins. The sound emitted by the fluid flow generator may be substantially cancelled by the acoustic baffle members, which may reflect the sound to a source location as reflected sound waves defined by a substantially inverted phase. | 11-15-2012 |
20120262921 | LOW PROFILE LIGHT AND ACCESSORY KIT FOR THE SAME - A luminaire includes a heat spreader; a heat sink; an LED light source; a power supply; an electrical supply line having a first end connected to the power supply, and a second end connected to a plug-in connector; and, an optic securely retained relative to the heat spreader or heat sink. An accessory kit includes a first pre-wired jumper including a pair of insulated electrical wires having a first plug-in connector electrically connected at one end and an Edison base electrically connected at the other end; and/or, a second pre-wired jumper including a pair of insulated electrical wires having a second plug-in connector electrically connected at one end and unconnected wire ends at the other end. The plug-in connector of the first pre-wired jumper and the second pre-wired jumper are each configured to electrically engage with the plug-in connector of the electrical supply line. | 10-18-2012 |
20120230034 | LED LUMINAIRE - A luminaire includes an electrical base, an optic, and a heat sink disposed between the base and the optic. The lens has a first curved portion, a second curved portion and a third portion. An LED light source is coupled to the heat sink with LED modules arranged to direct light in the same direction. A frustoconical member having a reflective outer surface is disposed between the lens and the LED light source wherein the LED light source has LED modules disposed to emit at least a portion of light toward the reflective outer surface such that light is emitted with a substantially even luminous intensity in a 0°-135° zone. | 09-13-2012 |
20120230027 | LED LUMINAIRE - Disclosed is a luminaire including an electrical base, a driver circuit in electrical communication with the electrical base, a heat sink operably coupled to the electrical base, a lens coupled to the heat sink and having a first portion adjacent the heat sink and a second portion adjacent the first portion, the first portion having at least one aperture disposed therein or therethrough, the at least one aperture having a different optical transmission property from the first portion in which the at least one aperture is disposed, a reflective member between the second portion and the heat sink, and an LED light source between the reflective member and the heat sink, the LED having at least one LED member between the reflective member and the first portion to emit light towards the reflective member, each LED member being disposed in electrical communication with the driver circuit. | 09-13-2012 |
20120176793 | LIGHT FIXTURE AND ASSOCIATED LED BOARD AND MONOLITHIC OPTIC - An embodiment of the invention is directed to a light fixture useful for area lighting. The light fixture includes a housing having a base and a top, and a light emitting diode (LED) light emission module disposed within the housing. The light emission module includes a centrally disposed aperture that receives a centrally disposed power lead for powering the light emission module. | 07-12-2012 |
20120087115 | SUSTAINABLE OUTDOOR LIGHTING SYSTEM - A method of generating light involves energizing one or more first light emitting elements thereby generating primary illumination of a first wavelength range over a target area, and energizing one or more second light emitting elements thereby generating secondary illumination of a second wavelength range toward the target area during a critical period. Both the primary illumination and the secondary illumination are combined within at least a portion of the target area thereby enhancing at least one visual property within the at least a portion of the target area. | 04-12-2012 |
20120075854 | LED LUMINAIRE - A luminaire includes an electrical base, an optic, and a heat sink disposed between the base and the optic. An LED driver circuit is disposed at least partially within the heat sink, and is disposed in electrical communication with the base. An LED light source is disposed in thermal communication with one or more surfaces of the heat sink, and in electrical communication with the driver circuit, the LED assembly includes an LED module. The light source includes a printed circuit board with a plurality of projections that are bendable such that the projections are arranged on an angle when assembled on the heat sink. | 03-29-2012 |
20110273889 | PENDANT LUMINAIRE - A luminaire includes an optics module and a heat sink. The optics module includes a body, an LED light source, an electronic driver circuit, and a holder. The LED light source is thermally coupled to the body. The electronic driver circuit is disposed within the body and is electrically connected to the LED light source, the driver circuit having an electrical connector configured to receive electrical power from a power source. The holder is mechanically secured to the body, the LED light source being securely retained between the holder and the body. The heat sink has a plurality of radially projecting fins and is thermally and removably coupled to the body of the optics module. | 11-10-2011 |
20110080727 | LOW PROFILE LIGHT - A luminaire includes a heat spreader and a heat sink thermally coupled to and disposed diametrically outboard of the heat spreader, an outer optic securely retained relative to at least one of the heat spreader and the heat sink, and a light source disposed in thermal communication with the heat spreader, the light source having a plurality of light emitting diodes (LEDs). The heat spreader, the heat sink and the outer optic, in combination, have an overall height H and an overall outside dimension D such that the ratio of H/D is equal to or less than 0.25. The combination defined by the heat spreader, the heat sink and the outer optic, is so dimensioned as to: cover an opening defined by a nominally sized four-inch can light fixture; and, cover an opening defined by a nominally sized four-inch electrical junction box. | 04-07-2011 |
20100277097 | SUSTAINABLE OUTDOOR LIGHTING SYSTEM - A method of generating light involves energizing one or more first light emitting elements thereby generating primary illumination of a first wavelength range over a target area, and energizing one or more second light emitting elements thereby generating secondary illumination of a second wavelength range toward the target area during a critical period. Both the primary illumination and the secondary illumination are combined within at least a portion of the target area thereby enhancing at least one visual property within the at least a portion of the target area. | 11-04-2010 |
20100277067 | DIMMABLE LED LUMINAIRE - A luminaire includes an Edison type electrical base, an optic, and a heat sink disposed between the base and the optic. An LED driver circuit is disposed at least partially within the heat sink, and is disposed in electrical communication with the base. An LED assembly is disposed in thermal communication with a surface of the heat sink, and in electrical communication with the driver circuit, the LED assembly includes an LED. The driver circuit includes circuitry that converts an AC signal at the base to a DC signal and provides the DC signal to the LED assembly, the circuitry includes holding current circuitry that produces a holding current for an electrical dimmer disposed upstream of the base in response to a current to the LED assembly being reduced for light dimming purposes. | 11-04-2010 |
20100238645 | MULTI-CAVITY LED ARRAY RGB COLLIMATION OPTIC - This invention relates to optical devices. More specifically, the present invention relates to a collimated optical light source assembly that produces a uniform white light. Specifically, light from a multi-cavity RGB LED array is dispersed in a reflecting cavity having a Lambertian texture on the interior surface. The light is then emitted though a lenslet array and a cone lens which together further disperses the light emitted by the individual LEDs. The dispersed light is then collimated by a reflector. | 09-23-2010 |
20100207536 | HIGH EFFICIENCY LIGHT SOURCE WITH INTEGRATED BALLAST - The present invention relates to regulated power supplies or ballasts integrated with an LED light source. The invention provides a power factor correction scheme producing a greater circuit power factor and improved frequency spectrum characteristics, in which a voltage corresponding to the instantaneous inductor current is sampled and compared to a scaled sample of the rectified input AC line voltage. The line voltage sample modulates the inductor peak charge current in the envelope of the rectified AC voltage waveform. This drives the LED output voltage at a frequency of twice the input line voltage frequency, such that no flicker is perceived in the light output because the persistence in LED phosphor assists in averaging the flux output. | 08-19-2010 |
20100188850 | LIGHT FIXTURE AND ASSOCIATED LED BOARD AND MONOLITHIC OPTIC - An embodiment of the invention is directed to a light fixture useful for area lighting. The light fixture includes a housing having a base and a top, and a light emitting diode (LED) light emission module disposed within the housing. The light emission module includes a centrally disposed aperture that receives a centrally disposed power lead for powering the light emission module. | 07-29-2010 |
20100118510 | HIGH COLOR RENDERING INDEX WHITE LED LIGHT SYSTEM USING MULTI-WAVELENGTH PUMP SOURCES AND MIXED PHOSPHORS - The present invention relates to an LED lighting system producing light having improved Color Rendering Index (CRI). The system includes a plurality of LEDs wherein the LEDs have at least a first and second characteristic wavelength, and a mixed phosphor layer overlying at least one of a portion of the plurality of LEDs, the phosphor layer absorbing at least a portion of the LED-emitted light and producing phosphor-emitted light, wherein the phosphors includes a third characteristic wavelength and a fourth characteristic wavelength, wherein the third characteristic wavelength and fourth characteristic wavelength are not the same. | 05-13-2010 |
20100039822 | FOLDED LIGHT PATH LED ARRAY COLLIMATION OPTIC - Embodiments of the present invention relate to a compact optical assembly which improves collimation of light produced by multiple LED light sources in a light engine. A shaped primary reflector located over the light engine reflects the light toward a larger shaped secondary reflector. The shapes of the reflectors are selected to cooperatively produce a highly collimated light beam. Color mixing may be improved by providing a plurality of facets on the reflective surfaces of at least one of the primary reflector or the secondary reflector. | 02-18-2010 |
20090296407 | LUMINAIRE AND METHOD OF OPERATION - A luminaire and a method of operating a luminaire is provided. The luminaire includes a light source emitting a plurality of light rays. A collimation device is arranged to receive a portion of light from the light source and transmits the portion of light through an exit aperture towards an illuminated area. The exit aperture includes a planar portion and at least one lenslet formed thereon. The lenslet is arranged having a first profile and a second profile, where the portion of light is refracted on a plurality of angles to form a twisted profile by the lenslet. | 12-03-2009 |
20090174342 | ELECTRONIC LIGHT GENERATING ELEMENT LIGHT BULB - The present system for driving an electronic light generating element, includes: (i) input terminals, (ii) an input circuit coupled to the input terminals and operable to convert a sinusoidal signal to a signal independent of negative current attributes, (iii) a switch control circuit coupled to the input circuit and operable to generate a switching signal having pulses, and (iv) a switching element coupled to the input circuit and the switch control circuit. The switching element is operable to generate an output signal formed as a series of bursts having peak amplitudes above a maximum forward current rating for a duty cycle less than a maximum operating duty cycle over which an electronic light generating element may be catastrophically damaged in response to the signal independent of negative current attributes and switching being applied to the switching element. The output signal is applied to the electronic light generating element to produce light. | 07-09-2009 |
20090135612 | Thermal and Optical Control in a Light Fixture - A housing has an internally-threaded opening that opens through an external surface. A support has external threads that engage the internal threads. Radiation-emitting structure on the support emits a beam of radiation that propagates to a location remote from the housing. At the location, the beam has a width that is a function of the position of the support within the housing. According to a different aspect, a housing has an internally-threaded opening that opens through an external surface, the housing including thermally-conductive material with the internal threads thereon. A support has external threads that engage the internal threads, the support including thermally-conductive material with the external threads thereon. Radiation-emitting structure is provided on the support, and the thermally-conductive material of the support carries heat from the radiation-emitting structure to the external threads. | 05-28-2009 |
20080211419 | Method and apparatus for driving a light emitting diode - An apparatus includes circuitry that responds to application to its input of an alternating current input signal by producing at its output an output signal suitable for driving an electronic light generating element. The circuitry includes a regulating section that has a magnetic switch and that causes a current flowing through the output to be maintained substantially at a selected value. A different aspect relates to a method for operating circuitry having an input, an output and a magnetic switch. The method includes causing the circuitry to respond to application to its input of an alternating current input signal by producing at its output an output signal suitable for driving an electronic light generating element, where the magnetic switch is used in regulating a current flowing through the output so as to maintain the current substantially at a selected value. | 09-04-2008 |