Patent application number | Description | Published |
20080251800 | Undoped and Unintentionally Doped Buffer Structures - A method of forming electronic device precursors and devices with reduced cracking in relevant layers is disclosed along with resulting structures. The method includes the steps of growing a transition layer of undoped Group III nitride on a substrate that is other than a Group III nitride, growing an active structure of Group III nitride on the undoped layer, and removing the substrate from the undoped layer. | 10-16-2008 |
20080258130 | Beveled LED Chip with Transparent Substrate - A light emitting diode is disclosed that includes a transparent (and potentially low conductivity) silicon carbide substrate, an active structure formed from the Group III nitride material system on the silicon carbide substrate, and respective ohmic contacts on the top side of the diode. The silicon carbide substrate is beveled with respect to the interface between the silicon carbide and the Group III nitride. | 10-23-2008 |
20080258161 | Transparent ohmic Contacts on Light Emitting Diodes with Carrier Substrates - A light emitting diode is disclosed that includes an active structure formed of at least p-type and n-type epitaxial layers of Group III nitride on a conductive carrier substrate. A conductive bonding system joins the active structure to the conductive carrier substrate. A first transparent ohmic contact is on the active structure adjacent the conductive carrier substrate, a second transparent ohmic contact is on the active structure opposite the conductive carrier substrate, and a third ohmic contact is on the conductive carrier substrate opposite from the active structure. | 10-23-2008 |
20100090233 | SIDE-VIEW SURFACE MOUNT WHITE LED - A light emitting diode is disclosed. The diode includes a package support and a semiconductor chip on the package support, with the chip including an active region that emits light in the visible portion of the spectrum. Metal contacts are in electrical communication with the chip on the package. A substantially transparent encapsulant covers the chip in the package. A phosphor in the encapsulant emits a frequency in the visible spectrum different from the frequency emitted by the chip and in response to the wavelength emitted by the chip. A display element is also disclosed that combines the light emitting diode and a planar display element. The combination includes a substantially planar display element with the light emitting diode positioned on the perimeter of the display element and with the package support directing the output of the diode substantially parallel to the plane of the display element. | 04-15-2010 |
20100244052 | HIGH OUTPUT GROUP III NITRIDE LIGHT EMITTING DIODES - A light emitting diode is disclosed that includes a silicon carbide substrate and a light emitting structure formed from the Group III nitride material system on the substrate. The diode has an area greater than 100,000 square microns and has a radiant flux at 20 milliamps current of at least 29 milliwatts at its dominant wavelength between 390 and 540 nanometers. | 09-30-2010 |
20110149604 | ENCAPSULANT PROFILE FOR LIGHT EMITTING DIODES - A light emitting packaged diode ids disclosed that includes a light emitting diode mounted in a reflective package in which the surfaces adjacent the diode are near Lambertian reflectors. An encapsulant in the package is bordered by the Lambertian reflectors and a phosphor in the encapsulant converts frequencies emitted by the LED chip and, together with the frequencies emitted by the LED chip, produces white light. A substantially flat meniscus formed by the encapsulant defines the emitting surface of the packaged diode. | 06-23-2011 |
20110164435 | SIDE VIEW SURFACE MOUNT LED - A light emitting diode is disclosed. The diode includes a package support and a semiconductor chip on the package support, with the chip including an active region that emits light in the visible portion of the spectrum. Metal contacts are in electrical communication with the chip on the package. A substantially transparent encapsulant covers the chip in the package. A phosphor in the encapsulant emits a frequency in the visible spectrum different from the frequency emitted by the chip and in response to the wavelength emitted by the chip. A display element is also disclosed that combines the light emitting diode and a planar display element. The combination includes a substantially planar display element with the light emitting diode positioned on the perimeter of the display element and with the package support directing the output of the diode substantially parallel to the plane of the display element. | 07-07-2011 |
20120104428 | SIDE VIEW SURFACE MOUNT LED - A light emitting diode is disclosed. The diode includes a package support and a semiconductor chip on the package support, with the chip including an active region that emits light in the visible portion of the spectrum. Metal contacts are in electrical communication with the chip on the package. A substantially transparent encapsulant covers the chip in the package. A phosphor in the encapsulant emits a frequency in the visible spectrum different from the frequency emitted by the chip and in response to the wavelength emitted by the chip. A display element is also disclosed that combines the light emitting diode and a planar display element. The combination includes a substantially planar display element with the light emitting diode positioned on the perimeter of the display element and with the package support directing the output of the diode substantially parallel to the plane of the display element. | 05-03-2012 |
20120153317 | LIGHT EMITTING DIODE (LED) DEVICES, SYSTEMS, AND METHODS - Light emitting diode (LED) devices, systems, and methods are disclosed. In one aspect, an illumination panel can be configured to provide backlighting for a liquid crystal display (LCD) panel. The illumination panel can include one or more LEDs arranged in an array. The one or more LEDs can be attached using metal-to-metal die attach methods over an illumination panel, or attached within packages disposed over the illumination panel. In one aspect, the one or more LEDs can be attached using robust metal-to-metal die attach techniques and/or materials disclosed herein. | 06-21-2012 |