| Patent application number | Description | Published |
|---|
| 20090242897 | INDIUM GALLIUM NITRIDE-BASED OHMIC CONTACT LAYERS FOR GALLIUM NITRIDE-BASED DEVICES - Light emitting devices include a gallium nitride-based epitaxial structure that includes an active light emitting region and a gallium nitride-based outer layer, for example gallium nitride. A indium nitride-based layer, such as indium gallium nitride, is provided directly on the outer layer. A reflective metal layer or a transparent conductive oxide layer is provided directly on the indium gallium nitride layer opposite the outer layer. The indium gallium nitride layer forms a direct ohmic contact with the outer layer. An ohmic metal layer need not be used. Related fabrication methods are also disclosed. | 10-01-2009 |
| 20090261358 | EMISSION TUNING METHODS AND DEVICES FABRICATED UTILIZING METHODS - A method for fabricating light emitting diode (LED) chips comprising providing a plurality of LEDs, typically on a wafer, and coating the LEDs with a conversion material so that at least some light from the LEDs passes through the conversion material and is converted. The light emission from the LED chips comprises light from the conversion material, typically in combination with LED light. The emission characteristics of at least some of the LED chips is measured and at least some of the conversion material over the LEDs is removed to alter the emission characteristics of the LED chips. The invention is particularly applicable to fabricating LED chips on a wafer where the LED chips have light emission characteristics that are within a range of target emission characteristics. This target range can fall within an emission region on a CIE curve to reduce the need for binning of the LEDs from the wafer. The emission characteristics of the LED chips in the wafer can be tuned to the desired range by micro-machining the conversion material over the LEDs. | 10-22-2009 |
| 20100101495 | Restricted Radiated Heating Assembly for High Temperature Processing - A vapor deposition reactor and associated method are disclosed that increase the lifetime and productivity of a filament-based resistive-heated vapor deposition system. The reactor and method provide for heating the filament while permitting the filament to move as it expands under the effect of increasing temperature while limiting the expanding movement of the filament to an amount that prevents the expanding movement of the filament from creating undesired contact with any portions of the reactor. | 04-29-2010 |
| 20100140633 | Methods for Combining Light Emitting Devices in a Package and Packages Including Combined Light Emitting Devices - Methods of forming a light emitting device package assembly include defining a chromaticity region in a two dimensional chromaticity space, and subdividing the defined chromaticity region into at least three chromaticity subregions, providing a plurality of light emitting devices that emit light having a chromaticity that falls within at least one of the defined chromaticity subregions, selecting at least three of the plurality of light emitting devices, each of the three light emitting devices emits light from a different one of the chromaticity subregions, and mounting the selected light emitting devices on a light emitting device package body. | 06-10-2010 |
| 20100270567 | LIGHTING DEVICE - A light emission package includes multiple colored solid state emitters each having a different non-white dominant wavelength in the visible range, and at least one lumiphor arranged to receive emissions from at least one other solid state emitter, with each emitter arranged on or adjacent to a common submount. The at least one other emitter and lumiphor may be arranged in combination to emit white light. Each emitter is independently controllable, permitting color and/or color temperature of a lighting device to be varied during operation of the device. At least one white emitter may be combined with red, green, and blue LEDs. | 10-28-2010 |
| 20100314640 | INDIUM GALLIUM NITRIDE-BASED OHMIC CONTACT LAYERS FOR GALLIUM NITRIDE-BASED DEVICES - Light emitting devices include a gallium nitride-based epitaxial structure that includes an active light emitting region and a gallium nitride-based outer layer, for example gallium nitride. A indium nitride-based layer, such as indium gallium nitride, is provided directly on the outer layer. A reflective metal layer or a transparent conductive oxide layer is provided directly on the indium gallium nitride layer opposite the outer layer. The indium gallium nitride layer forms a direct ohmic contact with the outer layer. An ohmic metal layer need not be used. Related fabrication methods are also disclosed. | 12-16-2010 |
| 20110037080 | METHODS FOR COMBINING LIGHT EMITTING DEVICES IN A PACKAGE AND PACKAGES INCLUDING COMBINED LIGHT EMITTING DEVICES - Methods of forming a light emitting device package assembly include defining a chromaticity region in a two dimensional chromaticity space within a 10-step MacAdam ellipse of a target chromaticity point, and subdividing the defined chromaticity region into at least three chromaticity subregions, providing a plurality of light emitting devices that emit light having a chromaticity that falls within the defined chromaticity region, selecting at least three of the plurality of light emitting devices, wherein each of the three light emitting devices emits light from a different one of the chromaticity subregions. The at least three light emitting devices are selected from chromaticity subregions that are complementary relative to the target chromaticity point to at least one other chromaticity subregion from which a light emitting device is selected. | 02-17-2011 |
| 20110042698 | EMITTER PACKAGE WITH ANGLED OR VERTICAL LED - The present invention is directed to LED packages and LED displays utilizing the LED packages, wherein the LED chips within the packages are arranged in unique orientations to provide the desired package or display FFP. One LED package according to the present invention comprises a reflective cup and an LED chip mounted in the reflective cup. The reflective cup has a first axis and a second axis orthogonal to the first axis, wherein the LED chip is rotated within the reflective cup so that the LED chip is out of alignment with said first axis. Some of the LED packages can comprise a rectangular LED chip having a chip longitudinal axis and an oval shaped reflective cup having a cup longitudinal axis. The LED chip is mounted within the reflective cup with the chip longitudinal axis angled from the cup longitudinal axis. LED displays according to the present invention comprise a plurality of LED packages, at least some of which have an LED chip mounted in a reflective cup at different angles to achieve the desired display FFP. | 02-24-2011 |
| 20110083602 | Multi-Rotation Epitaxial Growth Apparatus and Reactors Incorporating Same - A susceptor apparatus for use in a CVD reactor includes a main platter with a central gear. The main platter has opposite first and second sides, a central recess formed in the second side, and a plurality of circumferentially spaced-apart pockets formed in the first side. The central gear is positioned within the central recess and the satellite platters are individually rotatable within the respective pockets. Each pocket has a peripheral wall with an opening in communication with the central recess. The central gear teeth extend into each of the pockets via the respective wall openings and engage a planet gear associated with each satellite platter. Rotation of the main platter about its rotational axis causes the satellite platters to rotate about their individual rotational axes. | 04-14-2011 |
