Abstract:
A photo detection package including a package body configured to have an upward opened groove unit formed in the package body, a photo detection device mounted on a bottom surface of the groove unit and electrically connected externally, and a Light-Emitting Diode (LED) mounted on an inner surface of the groove unit that is formed of an inclined surface on a periphery of the bottom surface and electrically connected externally.
Abstract:
Exemplary embodiments of the present invention relate to a single-crystal substrate including a buffer layer including a nitride semiconductor, holes penetrating the buffer layer, and a single-crystal nitride semiconductor disposed on the buffer layer.
Abstract:
A light emitting element package includes a substrate provided with an interconnect portion, a light emitting element mounted on the substrate and connected to the interconnect portion, and a cover member contacting an upper surface of the light emitting element while covering the light emitting element. The cover member comprises Teflon-based organic polymers and has a light transmittance of 85% or more in an ultraviolet wavelength range.
Abstract:
A skin measurement apparatus for emitting a plurality of lights for photographing an image of the skin. A skin measurement apparatus includes an ultraviolet ray emitting device; a white light emitting device; a focus lens enabling incident light, which is an ultraviolet ray emitted by means of the ultraviolet ray emitting device and a white light emitted by means of the white light emitting device reflected off the skin and transmitted, to pass therethrough; and an emission control device for controlling the ultraviolet ray emitting device and the white light emitting device such that the ultraviolet ray and the white light can be emitted together. The emission control device adjusts the strength of the white light on the basis of white light control information from the outside.
Abstract:
Exemplary embodiments of the present invention relates to a light detection device including a substrate, a non-porous layer disposed on the substrate, a light absorption layer disposed on the non-porous layer, the light absorption layer including pores formed in a surface thereof, a Schottky layer disposed on the surface of the light absorption layer and in the pores, and a first electrode layer disposed on the Schottky layer.
Abstract:
A light emitting apparatus includes a substrate, a plurality of light emitting structures, a window, and a reflector. The substrate has a luminous region and a non-luminous region. The plurality of light emitting structures is disposed on the luminous region of the substrate. The window has a dome shape and is disposed to cover the luminous region. The window is configured to control a traveling path of light emitted from the a plurality of light emitting structures. The reflector is configured to support the window and reflect the light emitted from the plurality of light emitting structures. The reflector has an opening that exposes the plurality of light emitting structures mounted on the substrate. A distance between two adjacent light emitting structures of the plurality of light emitting structures is 500 micrometers or less.
Abstract:
A light emitting element package includes a substrate provided with an interconnect portion, a light emitting element mounted on the substrate and connected to the interconnect portion, and a cover member contacting an upper surface of the light emitting element while covering the light emitting element. The cover member comprises Teflon-based organic polymers and has a light transmittance of 85% or more in an ultraviolet wavelength range.
Abstract:
A sterilization apparatus includes a light source unit for emitting light to a sterilization region for sterilizing a target particle, a power supply unit for supplying power to the light source unit, and a photodiode unit for sensing the light from the light source unit. The photodiode unit is driven by the light from the light source unit.
Abstract:
A light emitting apparatus comprises a substrate, a plurality of light-emitting diodes provided on the substrate and arranged in a matrix, and a dome-type window provided above the light-emitting diodes to control the path of light emitted from the light-emitting diodes. The height of the window is 70% or less of the diameter of the lower portion of the window so that the view angle of the light emitted from the light-emitting diodes is 90 degrees or less.
Abstract:
A light emitting diode package includes a main frame including a base frame and a middle frame disposed on the base frame, a holding frame disposed on the middle frame, a light emitting diode chip disposed on the base frame, and a window secured by the main frame and the holding frame. The middle frame includes a middle frame open portion exposing the light emitting diode chip. The holding frame includes a holding frame open portion at least partially overlapping with the middle frame open portion on a plane. The holding frame open portion has an area decreasing in a direction away from the main frame.