A light emitting device package and a method of manufacturing the light emitting device package are provided. A base is first provided and a hole is formed on the base. After a light emitting portion is formed on the base, a mold die is placed on the light emitting portion and a molding material is injected through the hole. The mold die is removed to complete the package.

An article includes a flexible polymeric dielectric layer having first and second major surfaces. The first major surface has a conductive layer thereon and at least one cavity therein. The at least one cavity contains a conductive material including electrically separated first and second portions supporting and electrically connecting a light emitting semiconductor device to the conductive layer on the first major surface.

A light emitting diode load board includes a substrate, a first dielectric layer, a second dielectric layer and a first conductive pad and a second conductive pad. The second dielectric layer includes a first structure part, a second structure part and a third structure part. The first dielectric layer is disposed on the substrate. The first structure part is disposed on the first dielectric layer and has a first sidewall. The second structure part is disposed on the first structure part and has a second sidewall. The third structure part is disposed on the second structure part and has N sidewalls. The second sidewall is more prominent than the first sidewall. The first sidewall, the second sidewall and the N sidewalls define the first etched part, and the part of the first dielectric layer is exposed from the first etched part. The first conductive pad is disposed in the first etched part. The second conductive is disposed on the second dielectric layer, covers part of the second dielectric and exposes the open of the first etched part.

A phased array that comprises a predetermined number of emitter/receiver elements; said emitter/receiver elements being arranged on a array formed of stacked rows, wherein the emitter/receiver elements in each row of the array are distributed according to a pseudo-random pattern; and the heights of the rows vary according to a pseudo-random pattern.

A structure with an interconnection layer for redistribution of electrical connections includes a plurality of first electrical connections disposed on a substrate in a first arrangement. An insulating layer is disposed on the substrate over the first electrical connections. A plurality of second electrical connections is disposed on the insulating layer on a side of the insulating layer opposite the plurality of first electrical connections in a second arrangement. Each second electrical connection is electrically connected to a respective first electrical connection. An integrated circuit is disposed on the substrate and is electrically connected to the first electrical connections. The first electrical connections in the first arrangement have a greater spatial density than the second electrical connections in the second arrangement.

Solid-state transducers (SSTs) and vertical high voltage SSTs having buried contacts are disclosed herein. An SST die in accordance with a particular embodiment can include a transducer structure having a first semiconductor material at a first side of the transducer structure, and a second semiconductor material at a second side of the transducer structure. The SST can further include a plurality of first contacts at the first side and electrically coupled to the first semiconductor material, and a plurality of second contacts extending from the first side to the second semiconductor material and electrically coupled to the second semiconductor material. An interconnect can be formed between at least one first contact and one second contact. The interconnects can be covered with a plurality of package materials.

Solid-state transducers (SSTs) and vertical high voltage SSTs having buried contacts are disclosed herein. An SST die in accordance with a particular embodiment can include a transducer structure having a first semiconductor material at a first side of the transducer structure, and a second semiconductor material at a second side of the transducer structure. The SST can further include a plurality of first contacts at the first side and electrically coupled to the first semiconductor material, and a plurality of second contacts extending from the first side to the second semiconductor material and electrically coupled to the second semiconductor material. An interconnect can be formed between at least one first contact and one second contact. The interconnects can be covered with a plurality of package materials.

A supporting component and a display device are provided. The supporting component is configured to support the display panel. The supporting component includes a hole. The supporting component includes a first support portion and a second support portion. The first support portion is arranged around the hole. The second support portion is arranged around the first support portion. An elasticity modulus of the second support portion is greater than an elasticity modulus of the first support portion.

A light emitting device includes: a resin package comprising a first lead, a second lead, and a resin part; and a light emitting element disposed on the first lead. The resin package has a rectangular shape in top view and comprises a first outer lateral surface, a second outer lateral surface on a side opposite the first outer lateral surface, a third outer lateral surface, and a fourth outer lateral surface on a side opposite the third outer lateral surface. At the first outer lateral surface, the first lead is exposed from the resin part, and the first lead and a portion of the resin part located at a lateral edge of the first lead are substantially coplanar with each other.

A light emitting device to be mounted on a mount surface of a vehicular compartment includes a housing including a first section having an air intake hole and a cooling fan and a second section having an air discharge hole and a light emitter. The light emitter includes a board member having a first surface that is opposite the mount surface and a second surface that is an opposite surface of the first surface and on which a light emitting element is mounted. The housing further includes a discharge cavity having the discharge hole, and a top wall and a bottom wall that are opposite each other. The top wall includes a cavity upper wall section near the discharge hole. The cavity upper wall section has an opposite surface facing the first surface of the board member and extending parallel to the first surface.