An imaging device connected to a neural network is provided. An imaging device having a neuron in a neural network includes a plurality of first pixels, a first circuit, a second circuit, and a third circuit. Each of the plurality of first pixels includes a photoelectric conversion element. The plurality of first pixels is electrically connected to the first circuit. The first circuit is electrically connected to the second circuit. The second circuit is electrically connected to the third circuit. Each of the plurality of first pixels generates an input signal of the neuron. The first circuit, the second circuit, and the third circuit function as the neuron. The third circuit includes an interface connected to the neural network.

A semiconductor package and a method of manufacturing thereof is disclosed. The package includes a package substrate having a die attach region with a die attached thereto. A protective cover with a cover adhesive is disposed over a sensor region of the die and attached to the die by the cover adhesive. The cover adhesive is disposed in a cap bonding region of the protective cover.

A first wiring board, a first component mounted on the first wiring board, a second wiring board overlapping the first wiring board, a second component mounted on the second wiring board, and a connecting member disposed between the first wiring board and the second wiring board, the connecting member being soldered to the first wiring board and the second wiring board, the connecting member electrically connecting the first wiring board to the second wiring board, are provided.

According to an aspect, an image sensor package includes a substrate, an image sensor die coupled to the substrate, and a transparent member including a first surface and a second surface, where the second surface of the transparent member is coupled to the image sensor die via one or more dam members such that an empty space exists between an active area of the image sensor die and the second surface of the transparent member. The image sensor package includes a light blocking member coupled to or defined by the transparent member.

A solid-state imaging apparatus includes a first substrate that includes a plurality of photoelectric conversion units, a second substrate that includes at least a part of a readout circuit configured to read signals based on electric charges of the plurality of photoelectric conversion units and a peripheral circuit including a control circuit, and a wiring structure that is disposed between the first substrate and the second substrate and includes a pad portion electrically connected to the peripheral circuit via a draw-out wiring and an insulating layer. The wiring structure has, at least at a part thereof, a seal ring disposed in such a way as to surround the photoelectric conversion units and the peripheral circuit.

A method for forming a sensor package is disclosed. The method comprises: providing a sensor; forming an optical filter and a transparent mold on the sensor to form a sensor assembly; providing a substrate, wherein one or more connectors are attached on a front surface of the substrate; forming a first encapsulant layer on the front surface of the substrate, wherein the one or more connectors are exposed from the first encapsulant layer; disposing the sensor assembly on the first encapsulant layer; connecting the sensor with the one or more connectors; and forming a second encapsulant layer on the first encapsulant layer to cover the sensor assembly.

An optical detection module and a related manufacturing method are applied for chip scale package technology. The optical detection module includes a chip scale package assembly and a light sheltering layer. The chip scale package assembly includes a glass substrate, a detection chip, an isolation layer, a plurality of redistribution layers, and a plurality of conductive contacts. The detection chip is located above the glass substrate. The isolation layer is disposed on a surface of the detection chip opposite to the glass substrate. The plurality of redistribution layers is disposed on the isolation layer and spaced from each other, and having a plurality of conductive units. The plurality of conductive contacts is respectively disposed on the plurality of conductive units. The light sheltering layer is disposed on a lateral surface of the chip scale package assembly, and adapted to block light transmission and provide a covering protection function.

The present invention provides a TOF camera module and a projection module thereof, and an electronic device, wherein the TOF camera module comprises a projection module and a receiving module, wherein the projection unit of the projection module is controlled by the driver chip to project detection light, and wherein the receiving module is disposed adjacent to the projection module, the receiving module receives reflected light of the detection light, and obtains depth information of an illuminated object based on the reflected light. The projection module comprises a transmitting circuit board, a support, an optical element, at least one projection unit and at least one driver chip, wherein the driver chip is conductively connected to the transmitting circuit board, and the driver chip controls the projection unit through the transmitting circuit board, and wherein the driver chip and the projection unit are located on the same side of the transmitting circuit board.

A method of manufacturing a connection structure, connection structure, film structure, and a method of manufacturing a film structure capable of mounting an electronic component having a plurality of terminal rows on a mounting surface by using existing equipment, including: a pasting step of pasting, from a film structure including a tape-shaped base material and a connection film formed thereon, connection films having a unit region of a predetermined length in the length direction of the base material and a predetermined width in the width direction to a first or second electronic component having a plurality of terminal rows; and a connecting step of connecting terminals of the first and second electronic components through the connection films, wherein the film structure includes, in the unit region, in addition to portions corresponding to the plurality of terminal rows, a non-pasting portion in which the connection film is not pasted.

Implementations of semiconductor packages may include: a digital signal processor having a first side and a second side and an image sensor array, having a first side and a second side. The first side of the image sensor array may be coupled to the second side of the digital signal processor through a plurality of hybrid bond interconnect (HBI) bond pads and an edge seal. One or more openings may extend from the second side of the image sensor array into the second side of the digital signal processor to an etch stop layer in the second side of the digital signal processor. The one or more openings may form a second edge seal between the plurality of HBI bond pads and the edge of the digital signal processor.