Abstract: Disclosed is a lead frame base plate for a light emitting device, the base plate including: one or more lead frame areas respectively including a plurality of lead frames repeated in a first direction, the lead frame areas being arranged in parallel to be spaced apart from each other in a second direction intersecting with the first direction; and two or more openings extended in the first direction at both sides of each lead frame area so that the plurality of lead frames may be divided through a single direction sawing process performed in the second direction.

Abstract: The present disclosure relates to a semiconductor light-emitting device which includes: a light-emitting layer composed of an active layer and of barrier layers formed as superlattice layers and disposed on and under the active layer to relieve stresses applied to the active layer and reduce the sum of electric fields generated in the active layer by the spontaneous polarization and the piezoelectric effect; an N-type contact layer injecting electrons into the light-emitting layer; and a P-type contact layer disposed opposite to the N-type contact layer with respect to the light-emitting layer and injecting holes into the light-emitting layer, wherein the active layer contains InGaN, and the barrier layers are formed by alternately stacking of an AlGaN thin film and an InGaN thin film.

Abstract: There is provided a light emitting device using a compound semiconductor, which can improve electrical characteristics and internal quantum efficiency by maximizing the recombination rate of electrons and holes in an active layer. The light emitting device using a compound semiconductor includes a substrate; a compound semiconductor layer formed on the substrate, the compound semiconductor layer comprising an active layer; and a current spreading layer formed on at least one of the top and bottom surfaces of the active layer, the current spreading layer allowing electrons or holes to be uniformly spread into the active layer.