摘要:
The present invention provides an interconnect structure that can be made in the BEOL which exhibits good mechanical contact during normal chip operations and does not fail during various reliability tests as compared with the conventional interconnect structures described above. The inventive interconnect structure has a kinked interface at the bottom of a via that is located within an interlayer dielectric layer. Specifically, the inventive interconnect structure includes a first dielectric layer having at least one metallic interconnect embedded within a surface thereof; a second dielectric layer located atop the first dielectric layer, wherein said second dielectric layer has at least one aperture having an upper line region and a lower via region, wherein the lower via region includes a kinked interface; at least one pair of liners located on at least vertical walls of the at least one aperture; and a conductive material filling the at least one aperture.
摘要:
A method of fabricating a MEMS switch that is fully integratable in a semiconductor fabrication line. The method consists of forming two posts, each end thereof terminating in a cap; a rigid movable conductive plate having a surface terminating in a ring in each of two opposing edges, the rings being loosely connected to guiding posts; forming upper and lower electrode pairs and upper and lower interconnect wiring lines connected and disconnected by the rigid movable conductive plate. The conductive plate moves up, shorting two upper interconnect wirings lines. Conversely, the conductive plate moves down when the voltage is applied to the lower electrode pair, while the upper electrode pair is grounded, shorting the two lower interconnect wiring lines and opening the upper wiring lines.
摘要:
The present invention provides an interconnect structure that can be made in the BEOL which exhibits good mechanical contact during normal chip operations and does not fail during various reliability tests as compared with the conventional interconnect structures described above. The inventive interconnect structure has a kinked interface at the bottom of a via that is located within an interlayer dielectric layer. Specifically, the inventive interconnect structure includes a first dielectric layer having at least one metallic interconnect embedded within a surface thereof; a second dielectric layer located atop the first dielectric layer, wherein said second dielectric layer has at least one aperture having an upper line region and a lower via region, wherein the lower via region includes a kinked interface; at least one pair of liners located on at least vertical walls of the at least one aperture; and a conductive material filling the at least one aperture.
摘要:
A hinge type MEMS switch that is fully integratable within a semiconductor fabrication process, such as a CMOS, is described. The MEMS switch constructed on a substrate consists of two posts, each end thereof terminating in a cap; a movable conductive plate having a surface terminating in a ring in each of two opposing edges, the rings being loosely connected to guiding posts; an upper and lower electrode pairs; and upper and lower interconnect wiring lines connected and disconnected by the movable conductive plate. When in the energized state, a low voltage level is applied to the upper electrode pair, while the lower electrode pair is grounded. The conductive plate moves up, shorting two upper interconnect wirings lines. Conversely, the conductive plate moves down when the voltage is applied to the lower electrode pair, while the upper electrode pair is grounded, shorting the two lower interconnect wiring lines and opening the upper wiring lines. The MEMS switch thus formed generates an even force that provides the conductive plate with a translational movement, with the displacement being guided by the two vertical posts.
摘要:
A method and apparatus for adjusting capacitance of an on-chip capacitor uses exposure of a dielectric material of the capacitor to an ion beam comprising ions of at least one material to modify a dielectric constant of the dielectric material.
摘要:
A transistor device and method of forming the same comprises a substrate; a first gate electrode over the substrate; a second gate electrode over the substrate; and a landing pad comprising a pair of flanged ends overlapping the second gate electrode, wherein the structure of the second gate electrode is discontinuous with the structure of the landing pad.
摘要:
Gate conductors on an integrated circuit are formed with enlarged upper portions which are utilized to electrically connect the gate conductors with other devices. A semiconductor device comprises a gate conductor with an enlarged upper portion which electrically connects the gate conductor to a local diffusion region. Another semiconductor device comprises two gate conductors with enlarged upper portions which merge to create electrically interconnected gate conductors. Methods for forming the above semiconductor devices are also described and claimed.
摘要:
A method of fabricating a MEMS switch having a free moving inductive element within in micro-cavity guided by at least one inductive coil. The switch consists of an upper inductive coil at one end of a micro-cavity; optionally, a lower inductive coil; and a free-moving inductive element preferably made of magnetic material. The coils are provided with an inner permalloy core. Switching is achieved by passing a current through the upper coil, inducing a magnetic field unto the inductive element. The magnetic field attracts the free-moving inductive element upwards, shorting two open conductive wires, closing the switch. When the current flow stops or is reversed, the free-moving magnetic element drops back by gravity to the bottom of the micro-cavity and the conductive wires open. When the chip is not mounted with the correct orientation, the lower coil pulls the free-moving inductive element back at its original position.
摘要:
A method of making an interconnect comprising: providing an interconnect structure in a dielectric material, recessing the dielectric material such that a portion of the interconnect structure extends above an upper surface of the dielectric; and depositing an encasing cap over the extended portion of the interconnect structure.
摘要:
A structure and method of fabricating a “Lego”-like interlocking contact for high wiring density semiconductors is characterized in that the barrier liner formed in the contact via extends only partially upwards into the adjacent wire level. As a consequence, current crowding and related reliability problems associated with conventional prior art interconnect structures is avoided and structural integrity of the contact via (metal stud) structure is enhanced. The novel “crown” shape of the Lego-like interlocking contact structure that is fabricated to extend in an upward direction may be employed for other integrated circuit applications including forming capacitor (e.g., MIMCAP) and heat sink structures due to its increased surface area.