Semiconductor light emitting device and method for manufacturing the same

摘要

According to one embodiment, a semiconductor light emitting device includes a light emitting section and a wavelength conversion section. The light emitting section is configured to emit light. The wavelength conversion section is provided on one major surface side of the light emitting section. The wavelength conversion section contains a phosphor. The wavelength conversion section has a distribution of amount of the phosphor based on a distribution of wavelength of the light emitted from the light emitting section.

主权项

1. A method for manufacturing a multi-chip semiconductor light emitting device including a plurality of light emitting sections configured to emit light and the plurality of light emitting sections being close to each other, and a wavelength conversion section provided integrally on one major surface side of the plurality of light emitting sections and containing a phosphor at a predetermined ratio of amount of the phosphor, the method comprising:
forming a stacked body including a substrate, the light emitting sections formed on the substrate, electrode sections formed on each of the light emitting sections and a sealing layer formed between the electrode sections; removing the substrate from the light emitting sections while the light emitting sections being supported by a supporting structure including the electrode sections and the sealing layer; measuring wavelength of the light emitted from each of the light emitting sections; determining a distribution of amount of the phosphor based on a distribution of the measured wavelength of the light emitted from the light emitting sections; forming an integral layer having a resin mixed with the phosphor on the one major surface side of each of the light emitting sections; and forming the wavelength conversion section by trimming a surface of the integral layer based on the determined distribution of the amount of the phosphor, the wavelength conversion section having the distribution of the amount of the phosphor by changing thickness dimension of the integral layer, thickness of the wavelength conversion section at the position of the light emitting section for emitting a short wavelength light being shorter than the thickness of the wavelength conversion section at the position of the light emitting section for emitting long wavelength light, the wavelength conversion section having at least one stepped portion, and surface of the stepped portion being flat, wherein the distribution of amount of the phosphor is determined so that a variation of chromaticity of the lights emitted through the wavelength conversion section is suppressed.