Patent application number | Description | Published |
20090039375 | SEMICONDUCTOR LIGHT EMITTING DEVICES WITH SEPARATED WAVELENGTH CONVERSION MATERIALS AND METHODS OF FORMING THE SAME - A semiconductor device includes a semiconductor light emitting device (LED) that emits light having a first peak wavelength upon the application of a voltage thereto, and first and second phosphor-containing regions on the LED that receive the light and convert at least a portion of the light to light having a longer wavelength. The first phosphor-containing region is between the second phosphor-containing region and the LED so that a light ray emitted by the LED passes through the first phosphor-containing region before passing through the second phosphor-containing region. The first phosphor-containing region is configured to convert light emitted by the LED to light having a second peak wavelength and the second phosphor-containing region is configured to convert light emitted by the LED to light having a third peak wavelength, shorter than the second peak wavelength. | 02-12-2009 |
20090315061 | METHODS OF ASSEMBLY FOR A SEMICONDUCTOR LIGHT EMITTING DEVICE PACKAGE - Methods of assembly for a semiconductor light emitting device package may include positioning a submount on a mounting substrate with a flux material therebetween and at least substantially free of solder material therebetween. The submount has a metal bonding layer facing the mounting substrate. A semiconductor light emitting device is positioned on a top side of the submount with a flux material therebetween to provide an assembled stack. The assembled stack is reflowed to attach the metal bonding layer of the submount to the mounting substrate and to attach the light emitting device to the submount. | 12-24-2009 |
20100321893 | Heat Dissipation Packaging for Electrical Components - The emphasis for transporting heat energy to ambient in an efficient manner is critical for many semiconductor components to maintain highest performance. A heat dissipation system with low thermal resistance for the packaging of high power electrical components, and the methods for assembling a low thermal resistance system, is proposed. Unique in this method is the emphasis on moving heat with a primary thermal conductor away from the source and creating large area interface zones to improve heat transfer. | 12-23-2010 |
20110121345 | POWER SURFACE MOUNT LIGHT EMITTING DIE PACKAGE - A light emitting die package is provided which includes a metal substrate having a first surface and a first conductive lead on the first surface. The first conductive lead is insulated from the substrate by an insulating film. The first conductive lead forms a mounting pad for mounting a light emitting device. The package includes a metal lead electrically connected to the first conductive lead and extending away from the first surface. | 05-26-2011 |
20110221330 | HIGH CRI LIGHTING DEVICE WITH ADDED LONG-WAVELENGTH BLUE COLOR - Solid state lighting devcies include least one solid state emitter and multiple lumiphors, arranged to output aggregated emissions comprising at least one short wavelength blue peak, at least one long wavelength blue (LWB) peak, at least one yellow and/or green peak, and at least one red and/or orange peak. Presence of long wavelength blue enhances color rendering. At least one solid state emitter may include a short wavelength blue LED, LWB LED, and/or UV LED. Multiple emitters may be provided. Resulting devices may provide CRI greater than 85, efficiency of greater than 50 lm/watt, and color stability in a range of Δu′v′≦0.008 over a temperature change of 75° C. | 09-15-2011 |
20110222277 | HIGH CRI LIGHTING DEVICE WITH ADDED LONG-WAVELENGTH BLUE COLOR - Solid state lighting devices include least one solid state emitter and multiple lumiphors, arranged to output aggregated emissions comprising at least one short wavelength blue peak, at least one long wavelength blue (LWB) peak, at least one yellow and/or green peak, and at least one red and/or orange peak. Presence of long wavelength blue enhances color rendering. At least one solid state emitter may include a short wavelength blue LED, LWB LED, and/or UV LED. Multiple emitters may be provided. Resulting devices may provide CRI greater than 85, efficiency of greater than 50 lm/watt, and color stability in a range of Δu′v′≦0.008 over a temperature change of 75° C. | 09-15-2011 |
20110249406 | HEAT DISSIPATION SYSTEM FOR ELECTRICAL COMPONENTS - The present invention relates to a system for dissipating heat for one or more electrical components. A first solid heat dissipation structure is connected to a heatsink connection pad of the component while a second heat dissipation structure surrounds the first structure but not in contact with the connection pad to thermally regulate the heat of the electrical component. | 10-13-2011 |
20120068198 | HIGH DENSITY MULTI-CHIP LED DEVICES - High density multi-chip LED devices are described. Embodiments of the present invention provide high-density, multi-chip LED devices with relatively high efficiency and light output in a compact size. An LED device includes a plurality of interconnected LED chips and an optical element such as a lens. The LED chips may be arranged in two groups, wherein the LED chips within each group are connected in parallel and the groups are connected in series. In some embodiments, the LED device includes a submount, which may be made of ceramic. The submount may include a connection bus and semicircular areas to which chips are bonded. Wire bonds can be connected to the LED chips so that all the wire bonds are disposed on the outside of a group of LED chips to minimize light absorption. | 03-22-2012 |
20120069564 | MULTI-CHIP LED DEVICES - Multi-chip LED devices are described. Embodiments of the present invention provide multi-chip LED devices with relatively high efficiency and good color rendering. The LED device includes a plurality of interconnected LED chips and an optical element such as a lens. The optical element may be molded from silicone. The LED chips may be connected in parallel. In some embodiments, the LED device includes a submount, which may be made of a ceramic material such as alumina or aluminum nitride. Wire bonds can be connected to the LED chips so that all the wire bonds tend the outside of a group of LED chips. Various sizes and types of LED chips may be used, including vertical LED chips and sideview LED chips. | 03-22-2012 |
20120126255 | LIGHT EMITTING DEVICES AND METHODS - Light emitting devices and methods are disclosed. In one embodiment a light emitting device can include a substrate, one or more light emitting diodes (LEDs) disposed over the substrate, and the LEDs can include electrical connectors for connecting to an electrical element. A light emitting device can further include a retention material disposed over the substrate and the retention material can be disposed over at least a portion of the electrical connectors. In one aspect, a method for making a light emitting device is disclosed. The method can include providing a substrate with one or more LEDs comprising electrical connectors. The method can further include providing a retention material on at least a portion of the substrate wherein the retention material is disposed over at least a portion of the electrical connectors. | 05-24-2012 |
20120126257 | LIGHT EMITTING DEVICES AND METHODS - Light emitting devices and methods are disclosed. In one embodiment a light emitting device can include a substrate and a plurality of light emitting diodes (LEDs) disposed over the substrate in patterned arrays. The arrays can include one or more patterns of LEDs. A light emitting device can further include a retention material disposed about the array of LEDs. In one aspect, the retention material can be dispensed. | 05-24-2012 |
20120193662 | REFLECTIVE MOUNTING SUBSTRATES FOR FLIP-CHIP MOUNTED HORIZONTAL LEDS - A light emitting device includes a mounting substrate having a reflective layer that defines spaced apart anode and cathode pads, and a gap between them. A light emitting diode die is flip-chip mounted on the mounting substrate, such that the anode contact of the LED die is bonded to the anode pad and the cathode contact of the LED die is bonded to the cathode pad. A lens extends from the mounting substrate to surround the LED die. The reflective layer extends on the mounting substrate to cover substantially all of the mounting substrate that lies beneath the lens, excluding the gap, and may also extend beyond the lens. | 08-02-2012 |
20120223632 | REMOTE COMPONENT DEVICES, SYSTEMS, AND METHODS FOR USE WITH LIGHT EMITTING DEVICES - Remote component devices, systems, and methods are disclosed. In one aspect, remote component devices, systems, and methods can include a body for lockably securing the remote component to a housing. Devices, systems, and methods can also include one or more light emitting devices disposed over the body. An optical material can be remotely located at least a first distance away from the one or more light emitting devices. Remote component devices, systems, and methods disclosed herein can be used as replacements and/or equivalent light products for standard filament light bulbs and compact fluorescent lamp (CFL) bulbs. | 09-06-2012 |
20120235199 | POWER SURFACE MOUNT LIGHT EMITTING DIE PACKAGE - A light emitting die package is provided which includes a metal substrate having a first surface and a first conductive lead on the first surface. The first conductive lead is insulated from the substrate by an insulating film. The first conductive lead forms a mounting pad for mounting a light emitting device. The package includes a metal lead electrically connected to the first conductive lead and extending away from the first surface. | 09-20-2012 |
20120250310 | ATTACHMENT DEVICES AND METHODS FOR LIGHT EMITTING DEVICES - Attachment devices and methods for use with light emitting devices are provided. In one aspect, the light emitting device can include a submount and a light emission area disposed over the submount. The device can further include at least one attachment member provided on the submount. The attachment member can engage an electrical component thereby providing a gas-tight, solder free connection between the attachment member and electrical component. | 10-04-2012 |
20130077299 | HIGH VOLTAGE ARRAY LIGHT EMITTING DIODE (LED) DEVICES, FIXTURES AND METHODS - High voltage array light emitting devices, fixtures and methods are disclosed. In one embodiment a light emitting device can include a submount, a light emission area disposed over the submount and a retention material adapted to be dispensed about the light emission area. The light emitting device can be operable at high voltages which are greater than approximately 40 volts (V). In one aspect, the retention material can be least partially disposed within the light emission area such that the retention material physically separates a first section of the light emission area from a second section of the light emission area. | 03-28-2013 |
20130119417 | LIGHT EMITTING DIODE (LED) PACKAGES AND RELATED METHODS - Light emitting diode (LED) packages and methods are disclosed herein. In one aspect, a light emitting package is disclosed. The light emitting package includes one or more areas of conductive material having a thickness of less than approximately 50 microns (μm). The package can further include at least one light emitting diode (LED) electrically connected to the conductive material and at least one thin gap disposed between areas of conductive material. | 05-16-2013 |
20130161658 | LIGHT EMITTER DEVICES AND COMPONENTS WITH IMPROVED CHEMICAL RESISTANCE AND RELATED METHODS - Light emitter devices, components and methods are disclosed. In one aspect, a light emitter component of a light emitter device is disclosed. The light emitter component can include a silver (Ag) portion at least partially disposed over a surface of the component. The component can further include a protective layer at least partially disposed over the Ag portion, the protective layer at least partially including an organic barrier material that increases or improves chemical resistance of the Ag portion. In some aspects, the protective layer includes a polyxylylene (e.g., poly(p-xylylene), a substituted poly(p-xylylene), a fluorocarbon containing poly(p-xylylene), and/or any other polymer prepared from a xylylene and/or comprising —CH | 06-27-2013 |
20130193455 | LIGHT EMITTER PACKAGES AND DEVICES HAVING IMPROVED WIRE BONDING AND RELATED METHODS - Light emitter packages and devices having improved wire bonding and related methods are disclosed. In one embodiment a light emitter package can include at least one light emitting diode (LED) chip electrically connected to an electrical element via a wire bond. The wire bond can be provided at improved wire bonding parameters such as a temperature of approximately 150° C. or less, a bonding time of approximately 100 ms or less, a power of approximately 1700 mW or less, and a force of approximately 100 grams force (gf) or less, or combinations thereof. | 08-01-2013 |
20130193468 | SUBMOUNT BASED SURFACE MOUNT DEVICE (SMD) LIGHT EMITTER COMPONENTS AND METHODS - Submount based surface mount design (SMD) light emitter components and related methods are disclosed. In some aspects, light emitter components can include a submount with a first side having a first surface area, first and second electrical contacts disposed on the first side of the submount, and at least one light emitter chip on the first side. In some aspects, the electrical contact area can be less than half of the first surface area of the first side of the submount. Components disclosed herein can include low profile parts or domes where a ratio between a dome height and a dome width is less than 0.5. A method of providing components can include providing a panel of material and LED chips, dispensing a liquid encapsulant material over the panel, and singulating the panel into individual submount based components after the encapsulant material has hardened. | 08-01-2013 |
20130256711 | SUBSTRATE BASED LIGHT EMITTER DEVICES, COMPONENTS, AND RELATED METHODS - Substrate based light emitter devices, components, and related methods are disclosed. In some aspects, light emitter components can include a substrate and a plurality of light emitter devices provided over the substrate. Each device can include a surface mount device (SMD) adapted to mount over an external substrate or heat sink. In some aspects, each device of the plurality of devices can include at least one LED chip electrically connected to one or more traces and at least one pair of bottom contacts adapted to mount over a surface of external substrate. The component can further include a continuous layer of encapsulant disposed over each device of the plurality of devices. Multiple devices can be singulated from the component. | 10-03-2013 |
20130258658 | CERAMIC-BASED LIGHT EMITTING DIODE (LED) DEVICES, COMPONENTS AND METHODS - Devices, components and methods containing one or more light emitter devices, such as light emitting diodes (LEDs) or LED chips, are disclosed. In one aspect, a light emitter device component can include a ceramic body having a top surface, one or more light emitter devices mounted directly or indirectly on the top surface, and one or more electrical components mounted on the top surface and electrically coupled to the one or more light emitter devices, wherein the one or more electrical components can be spaced from the ceramic body by one or more non-metallic layers. Components disclosed herein can result in improved light extraction and thermal management. | 10-03-2013 |
20140070235 | WIRE BONDS AND LIGHT EMITTER DEVICES AND RELATED METHODS - Improved wire bonds and light emitting devices and related methods are disclosed. In one aspect, an improved wire bond can include a shaped wire bond, where at least a portion of the wire bond includes a negative kink and/or a concave shape with respect to an underlying substrate. | 03-13-2014 |
20140097453 | LIGHT EMITTING DEVICES FOR LIGHT EMITTING DIODES (LEDS) - Light emitting devices for light emitting diodes (LEDs) are disclosed. In one embodiment a light emitting device can include a substrate, one or more LEDs disposed over the substrate, and the LEDs can include electrical connectors for connecting to an electrical element. A light emitting device can further include a retention material disposed over the substrate and the retention material can be disposed over at least a portion of the electrical connectors. The LEDs can be connected in a pattern that is non-linear. | 04-10-2014 |
20140183568 | LED PACKAGE WITH FLEXIBLE POLYIMIDE CIRCUIT AND METHOD OF MANUFACTURING LED PACKAGE - A light emitting diode (LED) package may include a base, at least one light emitting die on the base, and a flextape on the base. The flextape includes at least one metal trace connected to the light emitting die. In a method of manufacturing the LED package, the base may be formed so as to include a basin and at least one light emitting die may be placed within the basin. The flextape may be provided to include at least one metal trace that is electrically connected to the light emitting die. | 07-03-2014 |
20140183577 | LIGHT EMITTING DEVICES FOR LIGHT EMITTING DIODES (LEDS) - Light emitting devices for light emitting diodes (LEDs) are disclosed. In one embodiment a light emitting device can include a substrate and a plurality of light emitting diodes (LEDs) disposed over the substrate in patterned arrays. The arrays can include one or more patterns of LEDs. A light emitting device can further include a retention material disposed about the array of LEDs. In one aspect, the retention material can be dispensed. | 07-03-2014 |
20140217433 | LIGHT EMITTER DEVICES AND METHODS FOR LIGHT EMITTING DIODE (LED) CHIPS - Light emitter devices for light emitting diodes (LED chips) and related methods are disclosed. In one embodiment a light emitter device includes a substrate and a chip on board (COB) array of LED chips disposed over the substrate. A layer having wavelength conversion material provided therein is disposed over the array of LED chips for forming a light emitting surface from which light is emitted upon activation of the LED chips. In some aspects, the wavelength conversion material includes phosphoric or lumiphoric material that is settled and/or more densely concentrated within one or more predetermined portions of the layer. In some aspects, the devices and methods provided herein can comprise a lumen density of approximately 30 lm/mm | 08-07-2014 |
20140239316 | LIGHT EMITTER PACKAGES AND METHODS - Light emitter packages and related methods having improved performance are disclosed. In one aspect, a light emitter package can include at least one light emitter chip disposed over a substrate or submount. In some aspects, the package can include a reflective polymeric material or polymeric reflector (sometimes referred to as a “solder mask” or “solder mask material”), a reflective material, and a conductive material disposed adjacent each other within a portion of the light emitter package. In some aspects, the reflective material can include a metallic material or metallic reflector applied to side walls of traces and/or within portions of a gap between traces prior to application of the reflective polymeric material within the gap. | 08-28-2014 |
20140239325 | LIGHT EMITTER COMPONENTS AND METHODS HAVING IMPROVED PERFORMANCE - Light emitter components and methods having improved performance and related methods are disclosed. In one embodiment, a light emitter component can include a submount and at least one light emitting diode (LED) chip disposed over the submount. The submount can contact at least two different sides of the at least one LED chip. In one aspect, a submount can include surface portions adapted to receive portions one or more LED chips. In one aspect, one or more LED chips can be embedded within the submount. | 08-28-2014 |
20140240974 | HIGH VOLTAGE ARRAY LIGHT EMITTING DIODE (LED) DEVICES AND FIXTURES - High voltage array light emitting devices and fixtures are disclosed. In one embodiment a light emitting device can include a submount, a light emission area disposed over the submount and a retention material adapted to be dispensed about the light emission area. The light emitting device can be operable at high voltages which are greater than approximately 40 volts (V). In one aspect, the retention material can be least partially disposed within the light emission area such that the retention material physically separates a first section of the light emission area from a second section of the light emission area. | 08-28-2014 |
20140268728 | LIGHT EMITTER COMPONENTS, SYSTEMS, AND RELATED METHODS - Light emitter components, systems, and related methods having improved optical efficiency and a lower manufacturing cost are disclosed. In one aspect, a light emitter component can include a substrate having an elongated body and first and second ends. At least a first trace and a second trace can be provided on the substrate. In some aspects, the first trace can be disposed proximate the first end of the substrate and the second trace can be disposed proximate the second end of the substrate, with no other portion of the first trace or second trace being disposed between the first and second ends of the substrate. In some aspects, a string of LED chips can be provided on the substrate. The string of LED chips can be disposed between the first and second ends of the substrate. Angled traces, gaps and light emitter components can also be provided in some aspects. | 09-18-2014 |
20140284643 | POWER SURFACE MOUNT LIGHT EMITTING DIE PACKAGE - A light emitting die package is provided which includes a metal substrate having a first surface and a first conductive lead on the first surface. The first conductive lead is insulated from the substrate by an insulating film. The first conductive lead forms a mounting pad for mounting a light emitting device. The package includes a metal lead electrically connected to the first conductive lead and extending away from the first surface. | 09-25-2014 |
20150048393 | HIGH DENSITY MULTI-CHIP LED DEVICES - High density multi-chip LED devices are described. Embodiments of the present invention provide high-density, multi-chip LED devices with relatively high efficiency and light output in a compact size. An LED device includes a plurality of interconnected LED chips and an optical element such as a lens. The LED chips may be arranged in two groups, wherein the LED chips within each group are connected in parallel and the groups are connected in series. In some embodiments, the LED device includes a submount, which may be made of ceramic. The submount may include a connection bus and semicircular areas to which chips are bonded. Wire bonds can be connected to the LED chips so that all the wire bonds are disposed on the outside of a group of LED chips to minimize light absorption. | 02-19-2015 |