Semiconductor light-emitting element
First Claim
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1. A semiconductor light emitting device comprising:
- a plurality of semiconductor layers sequentially formed on a growth substrate, the plurality of semiconductor layers including a first semiconductor having a first conductivity type, a second semiconductor layer having a second conductivity type different from the first conductivity type, and an active layer interposed between the first and second semiconductor layers and adapted to generate light by electron-hole recombination;
a non-conductive reflective film which is formed on the plurality of semiconductor layers, and reflects the light generated from the active layer towards the growth substrate;
a first electrode which is formed on the non-conductive reflective film, and electrically communicates with the first semiconductor layer to provide the first semiconductor layer with either electrons or holes; and
a second electrode which is formed on the non-conductive reflective film, opposite to the first electrode, and electrically communicates with the second semiconductor layer to provide the second semiconductor layer with either electrons if holes are provided to the first semiconductor layer or holes if electrons are provided to the first semiconductor layer,wherein at least one of the first electrode and the second electrode has a plurality of sub-electrodes on the non-conductive reflective film, with the sub-electrodes being spaced from each other.
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Abstract
Disclosed is a semiconductor light emitting device including: a plurality of semiconductor layers; a non-conductive reflective film which is formed on the plurality of semiconductor layers; and first and second electrodes formed on the non-conductive reflective film, wherein a spacing between the first electrode and the second electrode is 80 μm or greater, and a ratio of a combined area of the first and second electrodes to a planform area of the semiconductor light emitting device as seen on a top view is 0.7:1 or less.
11 Citations
5 Claims
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1. A semiconductor light emitting device comprising:
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a plurality of semiconductor layers sequentially formed on a growth substrate, the plurality of semiconductor layers including a first semiconductor having a first conductivity type, a second semiconductor layer having a second conductivity type different from the first conductivity type, and an active layer interposed between the first and second semiconductor layers and adapted to generate light by electron-hole recombination; a non-conductive reflective film which is formed on the plurality of semiconductor layers, and reflects the light generated from the active layer towards the growth substrate; a first electrode which is formed on the non-conductive reflective film, and electrically communicates with the first semiconductor layer to provide the first semiconductor layer with either electrons or holes; and a second electrode which is formed on the non-conductive reflective film, opposite to the first electrode, and electrically communicates with the second semiconductor layer to provide the second semiconductor layer with either electrons if holes are provided to the first semiconductor layer or holes if electrons are provided to the first semiconductor layer, wherein at least one of the first electrode and the second electrode has a plurality of sub-electrodes on the non-conductive reflective film, with the sub-electrodes being spaced from each other. - View Dependent Claims (2)
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3. A semiconductor light emitting device comprising:
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a plurality of semiconductor layers sequentially formed on a growth substrate, the plurality of semiconductor layers including a first semiconductor having a first conductivity type, a second semiconductor layer having a second conductivity type different from the first conductivity type, and an active layer interposed between the first and second semiconductor layers and adapted to generate light by electron-hole recombination; a non-conductive reflective film which is formed on the plurality of semiconductor layers, and reflects the light generated from the active layer towards the growth substrate; a first electrode which is formed on the non-conductive reflective film, and electrically communicates with the first semiconductor layer to provide the first semiconductor layer with either electrons or holes; a second electrode which is formed on the non-conductive reflective film, opposite to the first electrode, and electrically communicates with the second semiconductor layer to provide the second semiconductor layer with either electrons if holes are provided to the first semiconductor layer or holes if electrons are provided to the first semiconductor layer, wherein the first electrode and the second electrode each comprise a reflective layer in contact with the non-conductive reflective film; a barrier layer on the reflective layer; and a bonding layer on the barrier layer.
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4. A semiconductor light emitting device comprising:
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a plurality of semiconductor layers sequentially formed on a growth substrate, the plurality of semiconductor layers including a first semiconductor having a first conductivity type, a second semiconductor layer having a second conductivity type different from the first conductivity type, and an active layer interposed between the first and second semiconductor layers and adapted to generate light by electron-hole recombination; a non-conductive reflective film which is formed on the plurality of semiconductor layers, and reflects the light generated from the active layer towards the growth substrate; a first electrode which is formed on the non-conductive reflective film, and electrically communicates with the first semiconductor layer to provide the first semiconductor layer with either electrons or holes; a second electrode which is formed on the non-conductive reflective film, opposite to the first electrode, and electrically communicates with the second semiconductor layer to provide the second semiconductor layer with either electrons if holes are provided to the first semiconductor layer or holes if electrons are provided to the first semiconductor layer; an insulating film formed between the non-conductive reflective film and the first and second electrodes; a first connecting electrode and a second connecting electrode formed between the non-conductive reflective film and the insulating film; a first lower electrical connection which passes through the non-conductive reflective film and electrically connects the first connecting electrode and the first semiconductor layer; a second lower electrical connection which passes through the non-conductive reflective film and electrically connects the second connecting electrode and the second semiconductor layer; a first upper electrical connection which passes through the insulating film and is connected with the first connecting electrode; and a second upper electrical connection which passes through the insulating film and is connected with the second connecting electrode. - View Dependent Claims (5)
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Specification
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Current AssigneeLumens Co., Ltd.
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Original AssigneeSemicon Light Co., Ltd.
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InventorsJeon, Soo Kun, Choi, Il Gyun, Jin, Geun Mo
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Primary Examiner(s)Soward, Ida M
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Application NumberUS15/373,172Publication NumberTime in Patent Office1,112 DaysField of SearchUS Class CurrentCPC Class CodesH01L 2224/16225 the item being non-metallic...H01L 2224/16245 the item being metallicH01L 2224/32225 the item being non-metallic...H01L 2224/48091 ArchedH01L 2224/48247 connecting the wire to a bo...H01L 2224/48257 connecting the wire to a di...H01L 2224/49107 on the semiconductor or sol...H01L 2224/73204 the bump connector being em...H01L 2224/73265 Layer and wire connectorsH01L 2924/00 Indexing scheme for arrange...H01L 2924/00012 Relevant to the scope of th...H01L 2924/00014 the subject-matter covered ...H01L 2924/181 EncapsulationH01L 33/08 with a plurality of light e...H01L 33/10 with a light reflecting str...H01L 33/12 with a stress relaxation st...H01L 33/387 with a plurality of electro...H01L 33/46 Reflective coating, e.g. di...H01L 33/50 Wavelength conversion elementsH01L 33/62 Arrangements for conducting...View All
