[Object] To suppress appearance of a ghost.

[Solving Means] The present optical module includes a sensor configured to pick up an image of an image pickup object, and a memory chip configured to store pixel data read out from the sensor and having the sensor joined thereto. The memory chip is connected to a substrate by a connection portion by flip-chip connection. The sensor can be connected by a wire to the memory chip, to which the sensor is joined. Further, the sensor can be joined to the memory chip in such a manner as to project toward an opening of the substrate. The present technology can be applied to a camera module.

A semiconductor device is disclosed. The semiconductor device has a semiconductor chip, an island having an upper surface to which the semiconductor chip is bonded, a lead disposed around the island, a bonding wire extended between the surface of the semiconductor chip and the upper surface of the lead, and a resin package sealing the semiconductor chip, the island, the lead, and the bonding wire, while the lower surface of the island and the lower surface of the lead are exposed on the rear surface of the resin package, and the lead is provided with a recess concaved from the lower surface side and opened on a side surface thereof.

A locking system for an integrated circuit (IC) chip can include an arrangement of one or more antifuse devices in a signal path of the IC chip. The antifuse devices can be configured to operate in a first state, corresponding to a normally open switch, to inhibit normal operation of the IC chip, and to transition from the first state to a permanent second state, corresponding to a closed switch, in response to a program signal applied to at least one terminal of the IC chip to enable the normal operation of the IC chip.

A package carrier is provided. The package carrier includes a wiring layer and an insulating pattern. The wiring layer includes at least one connecting pad and at least one mounting pad. The mounting pad is used for mounting an electronic component, and the connecting pad is used for electrically connecting the electronic component. The insulating pattern is stacked on and connected to the wiring layer. A boundary surface is formed between the wiring layer and the insulating pattern. Both of the wiring layer and the insulating pattern do not extend over the boundary surface. In addition, an electronic package including the package carrier is also provided.

A semiconductor package includes a substrate including a core layer having a first surface and a second surface which is opposite to the first surface, a wiring layer formed over the first and second surfaces and in an inside of the core layer, and having a first electrode disposed in the inside of the core layer and exposed from the core layer and a second electrode disposed over the first surface, and a passivation layer formed over the first and second surface of the core layer such that the first and the second electrodes are exposed; a first semiconductor chip disposed over the first surface of the core layer; a second semiconductor chip stacked over the first semiconductor chip; a first connection member for connecting the first semiconductor chip with the first electrode; and a second connection member for connecting the second semiconductor chip with the second electrode.

A lead frame includes a first outer lead portion and a second outer lead portion which is arranged to oppose to the first outer lead portion with an element-mounting region between them. An inner lead portion has first inner leads connected to the first outer leads and second inner leads connected to the second outer leads. At least either the first or second inner leads are routed in the element-mounting region. An insulation resin is filled in the gaps between the inner leads located on the element-mounting region. A semiconductor device is configured with semiconductor elements mounted on both the top and bottom surfaces of the lead frame.

A control module for a motor vehicle having a base plate and electronic modules situated thereon is described. The electronic modules are encapsulated and the insulating compound which protects against environmental influences and is used for this purpose is a distance away from the edge of the base plate over the entire circumference.

A microelectronic semiconductor package includes first and second microelectronic elements and a substrate positioned between them. Each of the microelectronic elements has active and passive surfaces, first edges bounding the surfaces in a first lateral direction and second edges bounding the surfaces in a second lateral direction transverse to the first lateral direction. The first microelectronic overlies the second microelectronic element and the active surface of the first microelectronic element faces toward the passive surface of the second microelectronic element. Each of the first edges of the first microelectronic element are disposed beyond each of the adjacent first edges of the second microelectronic element. Each of the second edges of the second microelectronic element are disposed beyond each of adjacent second edges of the first microelectronic element.

An antifuse apparatus can include a cantilever extending from a first electrode portion to terminate in a distal end. A second electrode portion can be spaced apart from the cantilever by an air gap. In response to a program voltage across the first and second electrode portions, the cantilever can be adapted to move from an unprogrammed condition, corresponding to an open circuit condition where the cantilever is spaced apart from the second electrode portion, to at least one permanent programmed condition, corresponding to a short circuit condition between the first and second electrode portions where the cantilever engages the second electrode portion.

Apparatuses relating generally to a vertically integrated microelectronic package are disclosed. In an apparatus thereof, a substrate has an upper surface and a lower surface opposite the upper surface. A first microelectronic device is coupled to the upper surface of the substrate. The first microelectronic device is a passive microelectronic device. First wire bond wires are coupled to and extend away from the upper surface of the substrate. Second wire bond wires are coupled to and extend away from an upper surface of the first microelectronic device. The second wire bond wires are shorter than the first wire bond wires. A second microelectronic device is coupled to upper ends of the first wire bond wires and the second wire bond wires. The second microelectronic device is located above the first microelectronic device and at least partially overlaps the first microelectronic device.