Abstract: A wireless device includes high-performance CMOS RF switches that include serially connected transistors coupled between an input terminal and an output terminal, with an inductor coupled from the input to the output that resonates out the capacitance of the transistors to improve isolation. The transistors have a floating/bootstrapped body with remote body contacts.

Abstract: Embodiments of an apparatus and methods of forming interconnect between a workpiece and substrate and its application to packaging of microelectronic devices are described herein. Other embodiments may be described and claimed.

Abstract: Embodiments of an apparatus and methods for improving multi-gate device performance including methods to fabricate a plurality of multi-gate fins from a diffused body of a substantially planar structure that is substantially electrically isolated using a shallow trench region are generally described herein. Other embodiments may be described and claimed.

Abstract: Embodiments of wireless antenna array systems to achieve three-dimensional beam coverage are described herein. Other embodiments may be described and claimed.

Abstract: A method to provide a transistor or memory cell structure. The method comprises: providing a substrate including a lower Si substrate and an insulating layer on the substrate; providing a first projection extending above the insulating layer, the first projection including an Si material and a Si1-xGex material; and exposing the first projection to preferential oxidation to yield a second projection including a center region comprising Ge/Si1-yGey and a covering region comprising SiO2 and enclosing the center region.

Abstract: A photomask and a method of making same. The photomask includes a plate defining transparent regions in a predetermined pattern and opaque regions, the transparent regions adapted to transmit light therethrough; and a contrast enhancement layer disposed over an entire surface of at least one of the transparent regions and the opaque regions.

Abstract: A microelectronic device and a method of forming same. The method comprises: a transistor gate; a first spacer and a second spacer respectively adjacent a first side and a second side of the gate; a diffusion layer supra-adjacent the gate; contact regions super-adjacent the diffusion layer and adjacent the first spacer and the second spacer; a protective cap super-adjacent the gate and between the contact regions, the protective cap being adapted to protect the device from shorts between the gate and the contact regions.

Abstract: A system, apparatus, method, and article including a decoder having multiple connections defined between multiple check nodes and multiple symbol nodes. The connections between the multiple check nodes and the multiple symbol nodes are reconfigurable to enable the decoder to decode multiple codes. Other embodiments are described and claimed. The system further includes an antenna.

Abstract: A SOI device features a conductive pathway between active SOI devices and a bulk SOI substrate. The conductive pathway provides the ability to sink plasma-induced process charges into a bulk substrate in the event of process charging, such as interlayer dielectric deposition in a plasma environment, plasma etch deposition, or other fabrication provides. A method is also disclosed which includes dissipating electrostatic and process charges from a top of a SOI device to the bottom of the device. The top and bottom of the SOI device may characterize a region of active devices and a semiconductor method respectively. The method further includes a single masking step to create seed regions for an epitaxial-silicon pathway.

Abstract: Methods and apparatus for delivering ordered and duplicate-free wireless data frames are generally described and claimed herein. Other embodiments may also be described herein. In an embodiment, a source address, a destination address, and a message sequence number are acquired from a wireless data frame. The message sequence number is compared against a last-received message sequence number and a last-delivered message sequence number. The destination address is also compared to a current address. In response to the compares, a decision is made to forward the wireless data frame to the destination address, discard the wireless frame as a duplicate wireless data frame, queue the wireless data frame, or release the wireless data frame to a next protocol layer.

Abstract: A wireless device dynamically adjusts its beacon period as devices join and disconnect from a network. The number of open beacon slots is programmable and maintained as devices join the piconet.

Abstract: A dynamic A-MSDU enabling method is disclosed. The method enables the recipient of an aggregate MAC service data unit (A-MSDU) under a block ACK agreement to reject the A-MSDU. The method thus distinguishes between A-MSDU outside of the block ACK agreement, which is mandatory, from A-MSDU under the block ACK agreement, which is optional. The method thus complies with the 802.11n specification while enabling the recipient to intelligently allocate memory during block ACK operations.

Abstract: A microelectronic device and a method of forming same. The method comprises: a transistor gate; a first spacer and a second spacer respectively adjacent a first side and a second side of the gate; a diffusion layer supra-adjacent the gate; contact regions super-adjacent the diffusion layer and adjacent the first spacer and the second spacer; a protective cap super-adjacent the gate and between the contact regions, the protective cap being adapted to protect the device from shorts between the gate and the contact regions.

Abstract: An architecture for a receiver of a wireless device having a Low Noise Amplifier (LNA) transconductor to receive a signal from an antenna, a mixer meshed with the LNA transconductor, and an amplifier/filter meshed with the mixer to provide a baseband output signal.

Abstract: The present invention is a CMOS SRAM cell comprising two access devices, each access device comprised of a tri-gate transistor having a single fin; two pull-up devices, each pull-up device comprised of a tri-gate transistor having a single fin; and two pull-down devices, each pull-down device comprised of a tri-gate transistor having multiple fins. A method for manufacturing the CMOS SRAM cell, including the dual fin tri-gate transistor is also provided.

Abstract: A method for making a semiconductor device is described. That method comprises forming a dielectric layer on a substrate, and forming an impurity containing metal layer on the dielectric layer. A metal gate electrode is then formed from the impurity containing metal layer. Also described is a semiconductor device that comprises a metal gate electrode that is formed on a dielectric layer, which is formed on a substrate. The metal gate electrode includes a sufficient amount of an impurity to shift the workfunction of the metal gate electrode by at least about 0.1 eV.

Abstract: A non-planar microelectronic device, a method of fabricating the device, and a system including the device. The non-planar microelectronic device comprises: a substrate body including a substrate base and a fin, the fin defining a device portion at a top region thereof; a gate dielectric layer extending at a predetermined height on two laterally opposing sidewalls of the fin, the predetermined height corresponding to a height of the device portion; a device isolation layer on the substrate body and having a thickness up to a lower limit of the device portion; a gate electrode on the device isolation layer and further extending on the gate dielectric layer; an isolation element extending on the two laterally opposing sidewalls of the fin up to a lower limit of the gate dielectric layer, the isolation element being adapted to reduce any fringe capacitance between the gate electrode and regions of the fin extending below the device portion.

Abstract: Briefly, in accordance with one embodiment of the invention, a portable communication device comprises an amplifier having an input signal and an output signal. The amplitude of the input signal may be compared to the amplitude of the output signal and an appropriate analog signal may be generated to adjust the ratio of the input signal to the output signal.

Abstract: A wireless network transmits digital data. The network includes an active transceiver to transmit carrier waves at a succession of preselected frequencies and a transponder. The transponder transmits digital data to the active transceiver by partially reflecting the carrier waves.