Patent application number | Description | Published |
20090085054 | III-Nitride Semiconductor Light Emitting Device - The present disclosure relates to a III-nitride semiconductor light emitting device, and more particularly, to a III-nitride semiconductor light emitting device which can facilitate current spreading and improve electrostatic discharge characteristic by providing an undoped GaN layer with a thickness over 300 Å in an n-side contact layer. | 04-02-2009 |
20090085057 | III-Nitride Semiconductor Light Emitting Device - The present disclosure relates to a III-nitride semiconductor light emitting device, and more particularly, to a III-nitride semiconductor light emitting device which can facilitate current spreading and improve electrostatic discharge characteristic by providing an undoped GaN layer with a thickness over 100 Å in an n-side contact layer. | 04-02-2009 |
20110073870 | III-NITRIDE SEMICONDUCTOR LIGHT EMITTING DEVICE - The present III-nitride semiconductor light-emitting device comprises: a first III-nitride semiconductor layer having a first conductivity type; a second III-nitride semiconductor layer having a second conductivity type different from the first conductivity type; an active layer disposed between the first III-nitride semiconductor layer and the second III-nitride semiconductor layer and generating light by recombination of electrons and holes; and a depletion barrier layer brought into contact with the active layer and having a first conductivity type. | 03-31-2011 |
20120193674 | Semiconductor Light-Emitting Device - The present disclosure relates to a semiconductor light-emitting device which includes: a substrate having a first surface and a second surface; at least one semiconductor stacked body disposed on the first surface of the substrate and each including an active layer and first and second semiconductor layers disposed on both sides of the active layer, the first semiconductor layer having first conductivity, the second semiconductor layer having second conductivity different than the first conductivity, the first semiconductor layer having an exposed surface; a substrate piercing portion leading from the second surface to the first surface with a spacing from the exposed surface and opened without being covered with the at least one semiconductor stacked body; and an electrical path leading to the at least one semiconductor stacked body via the substrate piercing portion. | 08-02-2012 |
20140217439 | Semiconductor Light Emitting Device - The present disclosure relates to a semiconductor light-emitting device, comprising: a plurality of semiconductor layers grown sequentially using a growth substrate; a first electrode for providing either electrons or holes to a first semiconductor layer; a non-conductive reflective film formed over a second semiconductor layer to reflect light from an active layer towards the first semiconductor layer which is on the growth substrate side; and a finger electrode formed between the plurality of semiconductor layers and the non-conductive reflective film, which is extended so as to provide remaining electrons or holes to the second semiconductor layer, which is in electrical communication with the second semiconductor layer, and which has an electrical connection for receiving the remaining electrons or holes. | 08-07-2014 |
20140231839 | Semiconductor Light Emitting Device - The present disclosure relates to a semiconductor light emitting device, comprising: a plurality of semiconductor layers, including a first semiconductor layer having a first conductivity, a second semiconductor layer having a second conductivity different from the first conductivity, and an active layer interposed between the first semiconductor layer and the second semiconductor layer, generating light via electron-hole recombination; a first electrode, supplying either electrons or holes to the plurality of semiconductor layers; a second electrode, supplying, to the plurality of semiconductor layers, electrons if the holes are supplied by the first electrode, or holes if the electrons are supplied by the first electrode; a non-conductive distributed bragg reflector coupled to the plurality of semiconductor layers, reflecting the light from the active layer; and a first light-transmitting film coupled to the distributed bragg reflector from a side opposite to the plurality of semiconductor layers with respect to the non-conductive distributed bragg reflector, with the first light-transmitting film having a refractive index lower than an effective refractive index of the distributed bragg reflector. | 08-21-2014 |
20140291714 | Semiconductor Light Emitting Device - The present disclosure relates to a semiconductor light emitting device, comprising: a plurality of semiconductor layers that grows sequentially on a growth substrate, with the plurality of semiconductor layers including a first semiconductor layer having a first conductivity, a second semiconductor layer having a second conductivity different from the first conductivity, and an active layer interposed between the first semiconductor layer and the second semiconductor layer, generating a light with a first wavelength via electron-hole recombination; a first electrode, supplying either electrons or holes to the plurality of semiconductor layers; a second electrode, supplying, to the plurality of semiconductor layers, electrons if the holes are supplied by the first electrode, or holes if the electrons are supplied by the first electrode; a phosphor part provided over the first semiconductor layer on the side of the growth substrate, converting the light with the first wavelength generated in the active layer into a light of a second wavelength; and a non-conductive reflective film formed on the second semiconductor layer for reflecting the light from the active layer towards the first semiconductor layer on the side of the growth substrate, with the non-conductive reflective film having a distributed bragg reflector designed based on the light converted by the phosphor part. | 10-02-2014 |
Patent application number | Description | Published |
20080283865 | III-Nitride Compound Semiconductor Light Emitting Device - The present invention relates a III-nitride compound semiconductor light emitting device in which a first layer composed of a carbon-containing compound layer, such as an n-type or p-type silicon carbide (SiC), silicon carbon nitride (SiCN) or carbon nitride layer (CN) layer, is formed on the p-type III-nitride semiconductor layer of the existing III-nitride semiconductor light emitting device, and a second layer composed of a III-nitride semiconductor layer with a given thickness is formed on the first layer. | 11-20-2008 |
20090197397 | Method of Manufacturing Semiconductor Device - The present invention discloses a method of manufacturing a semiconductor device including a plurality of semiconductor layers grown on a substrate and removing the substrate from the plurality of semiconductor layers. The method of manufacturing the semiconductor device comprises a first step for growing a III-nitride compound semiconductor layer between the substrate and the plurality of semiconductor layers, and a second step for removing the substrate by etching the III-nitride compound semiconductor layer. | 08-06-2009 |
20090321713 | METHOD OF CONTROLLING ACTIVE LAYER OF III-NITRIDE SEMICONDUCTOR LIGHT EMITTING DEVICE - The present invention is to provide a method for controlling an active layer of a Hi-nitride semiconductor light emitting device by doping a barrier layer(s) selected from the active layer to suppress light emission in a specific well layer(s). | 12-31-2009 |
20100012920 | III-Nitride Semiconductor Light Emitting Device - The present invention discloses a III-nitride compound semiconductor light emitting device including an active layer for generating light by recombination of an electron and a hole between an n-type nitride compound semiconductor layer and a p-type nitride compound semiconductor layer. The active layer is disposed over the n-type nitride compound semiconductor layer. The III-nitride compound semiconductor light emitting device includes a masking film made of MgN and grown on the p-type nitride compound semiconductor layer, and at least one nitride compound semiconductor layer grown after the growth of the masking film made of MgN. | 01-21-2010 |
20100032689 | III-Nitride Compound Semiconductor Light Emitting Device - The present invention discloses a III-nitride compound semiconductor light emitting device having an n-type nitride compound semiconductor layer, an active layer grown on the n-type nitride compound semiconductor layer, for generating light by recombination of electron and hole, and a p-type nitride compound semiconductor layer grown on the active layer. The III-nitride compound semiconductor light emitting device includes a plurality of semiconductor layers including a nitride compound semiconductor layer with a pinhole structure grown on the p-type nitride compound semiconductor layer. | 02-11-2010 |