摘要:
The present invention provides optical imaging apparatus comprising solid state sensing elements and optical components operable to be manufactured and assembled at the wafer level.
摘要:
The present invention provides optical imaging apparatus comprising solid state sensing elements and optical components operable to be manufactured and assembled at the wafer level.
摘要:
A stacked microelectronic assembly is provided which includes first and second stacked microelectronic elements. Each of the first and second microelectronic elements can include a conductive layer extending along a face of such microelectronic element. At least one of the first and second microelectronic elements can include a recess extending from the rear surface towards the front surface, and a conductive via extending from the recess through the bond pad and electrically connected to the bond pad, with a conductive layer connected to the via and extending along a rear face of the microelectronic element towards an edge of the microelectronic element. A plurality of leads can extend from the conductive layers of the first and second microelectronic elements and a plurality of terminals of the assembly can be electrically connected with the leads.
摘要:
A stacked microelectronic assembly is provided which includes first and second stacked microelectronic elements. Each of the first and second microelectronic elements can include a conductive layer extending along a face of such microelectronic element. At least one of the first and second microelectronic elements can include a recess extending from the rear surface towards the front surface, and a conductive via extending from the recess through the bond pad and electrically connected to the bond pad, with a conductive layer connected to the via and extending along a rear face of the microelectronic element towards an edge of the microelectronic element. A plurality of leads can extend from the conductive layers of the first and second microelectronic elements and a plurality of terminals of the assembly can be electrically connected with the leads.
摘要:
A microelectronic unit includes a semiconductor element having a front surface to which a packaging layer is attached, and a rear surface remote from the front surface. The element includes a light detector including a plurality of light detector element arranged in an array disposed adjacent to the front surface and arranged to receive light through the rear surface. The semiconductor element also includes an electrically conductive contact at the front surface connected to the light detector. The conductive contact includes a thin region and a thicker region which is thicker than the thin region. A conductive interconnect extends through the packaging layer to the thin region of the conductive contact, and a portion of the conductive interconnect is exposed at a surface of the microelectronic unit.
摘要:
A microelectronic unit includes a semiconductor element having a front surface to which a packaging layer is attached, and a rear surface remote from the front surface. The element includes a light detector including a plurality of light detector element arranged in an array disposed adjacent to the front surface and arranged to receive light through the rear surface. The semiconductor element also includes an electrically conductive contact at the front surface connected to the light detector. The conductive contact includes a thin region and a thicker region which is thicker than the thin region. A conductive interconnect extends through the packaging layer to the thin region of the conductive contact, and a portion of the conductive interconnect is exposed at a surface of the microelectronic unit.
摘要:
An actuator that operates by electrostatic attraction and repulsion and can have fixed and moving electrodes is disclosed for one or more embodiments. The fixed and moving electrodes can be inclined relative to each other at an acute angle. The actuator can be radially symmetric and mirrored about the moving electrode. The moving electrode can have a central aperture over which is placed an optical element such as a lens. The optical element can be part of an optical train that permits the focus of an electronic camera to be modified by changing the displacement of the lens along the optical axis of the camera.
摘要:
Improved packages for light emitters may be fabricated at the wafer level. The package can be a single device or an array of die. The package includes a thermal via that extends through the thickness of the package substrate. The thermal via may be made of a material possessing a high thermal conductivity. The thermal via may be wider at the package exterior than at the interior to provide heat spreading between the device and its heat sink. The taper angle of the thermal via may be around 45 degrees to match the natural spread of heat in a solid. The thermal via may extend above the package interior, so its height is sufficient to position an emitter placed thereon at one foci of a parabola, where the vertex of the parabola is at the surface of the package substrate from which the thermal via extends.
摘要:
A method for connecting substrates having electrical conductive elements thereon, comprising: providing at least one spacer between the substrates; applying a conductive material to at least one of the electrical conductive elements; aligning the electrical conductive elements; and, connecting the substrates by urging them together, wherein the at least one spacer prevents lateral spreading of the conductive material on the substrates from bridging a distance between adjacent conductive elements during the connecting.
摘要:
A microelectronic assembly can include a first microelectronic device and a second microelectronic device. Each microelectronic device has a die structure including at least one semiconductor die and each of the microelectronic devices has a first surface, a second surface remote from the first surface and at least one edge surface extending at angles other than a right angle away from the first and second surfaces. At least one electrically conductive element extends along the first surface onto at least one of the edge surfaces and onto the second surface. At least one conductive element of the first microelectronic device can be conductively bonded to the at least one conductive element of the second microelectronic device to provide an electrically conductive path therebetween.