An array substrate, a display panel and a display module. The array substrate includes a substrate including a non-display area. The non-display area includes a chip integration area. A first pad group is arranged in the chip integration area, the first pad group includes a plurality of first pads. A second pad group is arranged in the non-display area, each second pad group includes a plurality of second pads. A plurality of connecting lines are configured to electrically connect the second pads with the first pads. Lengths of the connecting lines are respectively electrically connected to the plurality of second pads in each second pad group arranged along a direction away from the first pad group increase.

An electronic circuit module includes: a substrate on which a wiring pattern having an electrode portion is formed; a cable having an external insulator and a conductor portion, at least a distal end side of the external insulator being removed to expose a conductor, an exposed portion of the conductor being defined as the conductor portion; and an electronic component having terminals at least on two opposed faces of the electronic component. At least one of the terminals of the electronic component is directly connected to the conductor portion, and is configured to be electrically connected to the electrode portion through the conductor portion.

According to one embodiment, a display device includes a first substrate, a second substrate opposing the first substrate, a liquid crystal layer and a light source that emits light to the liquid crystal layer, and the first substrate includes a first portion opposing the second substrate and having a first thickness and a second portion not opposing the second substrate and having a second thickness which is less than the first thickness, and the light source is disposed on the second portion, and the light source includes a first surface opposing the second portion and a second surface opposing the first surface, and a wiring substrate is disposed on the second surface so that the wiring substrate does not protrude with respect to the second substrate in a thickness direction.

A display device includes a circuit board and a plurality of light-emitting units disposed on the circuit board. The circuit board includes a substrate and a plurality of signal lines disposed on the substrate. Each light-emitting unit includes a base board, at least one light-emitting element and a driving circuit layer. The light-emitting element is between the base board and the substrate. The driving circuit layer is between the light-emitting element and the base board, and electrically connected to the light-emitting element and the signal line.

A first microchip includes holes or sockets along or in a top face or surface of the first microchip and a second microchip includes nodules extending from a edge of the second microchip. The nodules of the second microchip are received in the holes or sockets along or in the top face or surface of the first microchip, whereupon the first and second microchips are positioned transverse or perpendicular to each other.

The present disclosure relates to an electronic component, a voltage regulation module and a voltage stabilizer. The electronic component may include a substrate, a first electronic element and a second electronic element. The substrate may be provided with a first surface and a second surface that are opposite to each other. The first electronic element may be embedded in the substrate, and may be provided with a first electrical connection terminal and a second electrical connection terminal. The first electrical connection terminal may connect with a first surface of the substrate, the second electrical connection terminal may connect with a second surface of the substrate. The second electronic element may be arranged on the second surface of the substrate and electrically connected to the second electrical connection terminal. The second electronic element may form a stack with the substrate along the first direction.

An electronic module includes at least one electronic component including a first principal surface, first and second electrodes on the first principal surface, a wiring board including a second principal surface, third and fourth electrodes on the second principal surface, and a conductive resin portion. The conductive resin portion includes at least one first conductive resin portion joining the first and third electrodes, and at least one second conductive resin portion joining the second and fourth electrodes. The electronic module further includes at least one reinforcing resin portion that is disposed between at least one first and at least one second conductive resin portions and joins the first principal surface of the electronic component with the second principal surface of the wiring board.

The present disclosure relates to an electronic component, a voltage regulation module and a voltage stabilizer. The electronic component may include a substrate, a first electronic element and a second electronic element. The substrate may be provided with a first surface and a second surface that are opposite to each other. The first electronic element may be embedded in the substrate, and may be provided with a first electrical connection terminal and a second electrical connection terminal. The first electrical connection terminal may connect with a first surface of the substrate, the second electrical connection terminal may connect with a second surface of the substrate. The second electronic element may be arranged on the second surface of the substrate and electrically connected to the second electrical connection terminal. The second electronic element may form a stack with the substrate along the first direction.

A laser ignition assembly comprises first and second mounting surfaces opposed to each other. A central cavity is formed through the surfaces and sized to receive energetic material therein. A vertical solder bridge is formed between the surfaces and an edge emitting laser diode disposed between the surfaces. The laser diode is oriented such that a light fluence therefrom is directed in a radial direction into the central cavity. The surfaces can be circuit boards, e.g., copper clad, rigid circuit boards, and have an annular shape. The central cavity can be further defined by an interboard gap between the surfaces. The ignition assembly can fit within a primer cup of a munition.

A novel method and interface are provided to generalize power delivery (PD) solutions and allow OEMs and suppliers to easily replace PD solutions using the same design and layout without having to re-spin the motherboard. This is achieved by defining a new interface and ball-out which support dual port PD solution that meet the system requirements. The embodiments employ an interposer to unify different PD solutions. The interposer is part of a unique Land Grid Array (LGA) soldered down solution with pre-defined interface employing a generic pinout to support PD solutions for dual type-C ports from different vendors. The interposer includes an LGA having a pattern of pads that is coupled to a LGA on a platform PCB with a matching pattern.