Abstract: In a first aspect of the present disclosure, a push switch includes a substrate including a first electrode and a second electrode arranged on an upper surface of the substrate, the second electrode arranged around the first electrode; and a resilient member that is arranged on the second electrode over the first electrode. The substrate includes a recess in a lower surface of the substrate, and the recess is positioned below the first electrode that is arranged on the upper surface of the substrate.

Abstract: To provide an illumination method and a light-emitting device which are capable of achieving, under an indoor illumination environment where illuminance is around 5000 lx or lower when performing detailed work and generally around 1500 lx or lower, a color appearance or an object appearance as perceived by a person, will be as natural, vivid, highly visible, and comfortable as though perceived outdoors in a high-illuminance environment, regardless of scores of various color rendition metric. Light emitted from the light-emitting device illuminates an object such that light measured at a position of the object satisfies specific requirements. A feature of the light-emitting device is that light emitted by the light-emitting device in a main radiant direction satisfies specific requirements.

Abstract: To provide an illumination method and a light-emitting device which are capable of achieving, under an indoor illumination environment where illuminance is around 5000 lx or lower when performing detailed work and generally around 1500 lx or lower, a color appearance or an object appearance as perceived by a person, will be as natural, vivid, highly visible, and comfortable as though perceived outdoors in a high-illuminance environment, regardless of scores of various color rendition metric. Light emitted from the light-emitting device illuminates an object such that light measured at a position of the object satisfies specific requirements. A feature of the light-emitting device is that light emitted by the light-emitting device in a main radiant direction satisfies specific requirements.

Abstract: Provided is an LED drive circuit whereby the light emission color is easily changed when dimming by adjusting the current that drives the LED. The LED drive circuit has: a variable constant current source; a first LED row having a plurality of LEDs connected in series and emitting light in a first light emission color; a second LED row having a plurality of LEDs connected in series and emitting light in a second light emission color; and a current limiting circuit including a current detection element and a switch element. The LED drive circuit is characterized by: the threshold voltage for the first LED row being larger than the threshold voltage for the second LED row; the first LED row and the second LED row being connected in parallel to the variable constant current source; and the current limiting circuit limiting the current flowing to the second LED row, on the basis of the current flowing to the current detection element via the first LED row.

Abstract: A semiconductor device directly joins electrodes of a semiconductor element to electrodes of a metal substrate and has good yield, connection reliability, good mass productivity, and superior heat dissipation efficiency. A method for producing the semiconductor device that directly joins the electrodes of the metal substrate to the electrodes of the semiconductor element includes forming an electrode separating groove in an element mounting position on a main surface of the metal substrate at a predetermined depth. The semiconductor element is mounted to extend over the electrode separating groove. The metal substrate is ground from a surface reverse to the main surface of the metal substrate up to a position reaching the electrode separating groove.

Abstract: Provided is an LED device presenting minimal risk of bottom-surface contamination even when foreign substances such as liquids adhere thereto. The LED device has an LED die, a submount substrate on the surface of which the LED die is mounted, a frame-shaped electrode disposed along the outer circumferential part of the bottom surface of the submount substrate, and an inner-side electrode surrounded by the frame-shaped electrode and connected to the electrode of the LED die. In the LED device, the frame-shaped electrode is disposed along the entire outer circumferential part of the bottom surface. In an LED device, the bottom surface is rectangular, and the frame-shaped electrode is disposed along three sides of the bottom surface.

Abstract: An LED package used in a light-emitting device is provided with a function of position correction in mounting by self-alignment, and mounting density of such LED packages is increased. The LED package includes an LED element including an element electrode on a bottom surface, a phosphor layer containing a phosphor and covering a top surface and a side surface of the LED element, and an auxiliary electrode having an upper face bonded to a lower face of the element electrode, wherein the auxiliary electrode is larger than the element electrode, the auxiliary electrode includes a step that makes a lower face smaller than the upper face, and an end portion of the auxiliary electrode on a side where the step is formed is located inside an outer peripheral side of the phosphor layer.

Abstract: A condensation reaction-type die bonding agent has little liability of poor electrical connection at the electrodes. A condensation reaction-type die bonding agent for bonding an LED device provided on its surface with device electrodes having connection surfaces covered by gold, where the die bonding agent includes (A) a polysilsesquioxane solid in state at room temperature having trisiloxy units (TA) expressed by R1SiO3/2 where, R1 indicates one group selected from the group comprised of C1 to C15 alkyl groups, a phenyl group, and a benzyl group, and having hydroxyl groups, (B) a polysilsesquioxane liquid in state at room temperature having trisiloxy units (TB) expressed by R2SiO3/2 where, R2 indicates one group selected from the group comprised of C1 to C15 alkyl groups, a phenyl group, and a benzyl group, and having —OR2 where, R2 indicates one group selected from the group comprised of C1 to C15 alkyl groups, a phenyl group, and a benzyl group, and (C) a condensation reaction catalyst.

Abstract: A switch component includes a spring plate and a cover of rubber. The cover of rubber covers at least one part of an upper surface of the spring plate. The cover of rubber includes at least one pair of supporting portions that support the spring plate.

Abstract: Described herein are light-emitting devices that incorporate at least one light-emitting element and that satisfy predetermined requirements, in which ?SSL(?) emitted from the light-emitting device satisfies predetermined conditions described herein.