An electronic package is provided. The electronic package includes a carrier, a first electronic component, a bonding element, and a barrier. The carrier has a conductive layer. The first electronic component is disposed adjacent to the carrier and has a first terminal and a second terminal. The bonding element is configured to electrically connect the conductive layer to the first terminal. The barrier is configured to avoid electrically bypassing an electrical path in the first electronic component and between the first terminal and the second terminal.

An electronic package is provided. The electronic package includes a carrier, a first electronic component, a bonding element, and a barrier. The carrier has a conductive layer. The first electronic component is disposed adjacent to the carrier and has a first terminal and a second terminal. The bonding element is configured to electrically connect the conductive layer to the first terminal. The barrier is configured to avoid electrically bypassing an electrical path in the first electronic component and between the first terminal and the second terminal.

A display may include a color filter layer, a liquid crystal layer, and a thin-film transistor layer. A camera window may be formed in the display to accommodate a camera. The camera window may be formed by creating a notch in the thin-film transistor layer that extends inwardly from the edge of the thin-film transistor layer. The notch may be formed by scribing the thin-film transistor layer around the notch location and breaking away a portion of the thin-film transistor layer. A camera window may also be formed by grinding a hole in the display. The hole may penetrate partway into the thin-film transistor layer, may penetrate through the transistor layer but not into the color filter layer, or may pass through the thin-film transistor layer and partly into the color filter layer.

A display may include a color filter layer, a liquid crystal layer, and a thin-film transistor layer. A camera window may be formed in the display to accommodate a camera. The camera window may be formed by creating a notch in the thin-film transistor layer that extends inwardly from the edge of the thin-film transistor layer. The notch may be formed by scribing the thin-film transistor layer around the notch location and breaking away a portion of the thin-film transistor layer. A camera window may also be formed by grinding a hole in the display. The hole may penetrate partway into the thin-film transistor layer, may penetrate through the transistor layer but not into the color filter layer, or may pass through the thin-film transistor layer and partly into the color filter layer.

A semiconductor relay module includes: first and second semiconductor relays; and first to third input terminals and first and second output terminals that are exposed from a housing. The first semiconductor relay includes a first optocoupler and a first switch, and the second semiconductor relay includes a second optocoupler and a second switch. The first switch and the second switch are connected by an output connecting line, the third input terminal is connected to an input connecting line, and the input connecting line and the output connecting line are covered by the housing.

A semiconductor relay module includes: first and second semiconductor relays; and first to third input terminals and first and second output terminals that are exposed from a housing. The first semiconductor relay includes a first optocoupler and a first switch, and the second semiconductor relay includes a second optocoupler and a second switch. The first switch and the second switch are connected by an output connecting line, the third input terminal is connected to an input connecting line, and the input connecting line and the output connecting line are covered by the housing.

A white-light-emitting inorganic light-emitting-diode (iLED) structure comprises first iLEDs electrically connected in series, each first iLED emitting a different color of light from any other first iLED when electrical power is provided to the first iLEDs, and a second iLED electrically connected to one of the first iLEDs, the second iLED emitting the same color of light as the one of the first iLEDs when electrical power is provided to the first iLEDs. The second iLED can be electrically connected in series or in parallel with the one of the first iLEDs. Such iLED structures can be used at least in displays, lamps, and indicators.

A substrate for mounting a light-emitting element includes a substrate with a plate shape and a base that protrudes from a front surface of the substrate, wherein the base has a mounting part for mounting a light-emitting element on a top surface thereof and composes a sloping surface that slopes with respect to the front surface and the substrate and the base are integrally formed of a ceramic.

The present disclosure provides an apparatus for manufacturing a semiconductor structure. The apparatus includes a stage, an optical transceiver over the stage, configured to obtain a first profile of a first surface of a substrate, an acoustic transceiver over the stage, configured to obtain a second profile of a top surface of a photo-sensitive layer over the substrate, wherein the stage is adapted to be displaced based on the first profile and the second profile.

The disclosure relates to a display device which includes a substrate, pixels, a first insulating layer disposed on the substrate and including a recess, a first conductive layer disposed on the first insulating layer, a second conductive layer disposed between the first conductive layer and the substrate and electrically connected to the first conductive layer, a trace layer disposed between the first and second conductive layers and electrically connected to the first conductive layer, and a buffer layer disposed between the second conductive layer and the trace layer. The substrate includes a bent portion and a main portion and the pixels are disposed on the main portion. The first conductive layer is electrically connected to at least one of the pixels, and the first conductive layer includes a first portion disposed in the recess, and a second portion disposed out of the recess.