Abstract: Devices, systems, and methods for making and using circuit assemblies having a pattern of deformable conductive material formed therein are disclosed herein. In various aspects, a circuit assembly can include a substrate layer; a first pattern of deformable conductive material formed on a surface of the substrate layer using a removable stencil; and a first stacked layer configured to cover at least a portion of the first pattern of deformable conductive material.

Abstract: An electronic device includes a first memory cell and a second memory cell, of a nonvolatile memory array. The first memory cell includes a body region, a gate structure, a source region, and a drain region. The second memory cell includes a body region, a gate structure, a source region, and a drain region. In one embodiment, the body of the second memory cell is physically isolated from the body region of the first memory cell. A bitline segment is electrically connected to the drain region of the first memory cell and to the drain region of the second memory cell.

Abstract: An electronic device includes a first memory cell and a second memory cell, of a nonvolatile memory array. The first memory cell includes a body region, a gate structure, a source region, and a drain region. The second memory cell includes a body region, a gate structure, a source region, and a drain region. In one embodiment, the body of the second memory cell is physically isolated from the body region of the first memory cell. A bitline segment is electrically connected to the drain region of the first memory cell and to the drain region of the second memory cell.

Abstract: A fabricated multiple layer integrated circuit in which adequate planarization is accomplished using irregularly shaped and properly spaced conductive filler features that are spaced in such a way that capacitive coupling of the conductive filler features with the active conductive regions is reduced. The overall layout area of the conductive filler features is reduced to thereby reduced capacitive coupling with active conductive above and below. In addition, a relatively small edge of the feature is closest to the active conductive in the same conductive layer thereby further reducing capacitive coupling.

Abstract: A fabricated multiple layer integrated circuit in which adequate planarization is accomplished using irregularly shaped and properly spaced conductive filler features that are spaced in such a way that capacitive coupling of the conductive filler features with the active conductive regions is reduced. The overall layout area of the conductive filler features is reduced to thereby reduce capacitive coupling with active conductive above and below. In addition, a relatively small edge of the feature is closest to the active conductive in the same conductive layer thereby further reducing capacitive coupling.

Abstract: Characterization of plasma-induced damage in semiconductor manufacturing has long been considered unimportant because the damage had no discernable effect on circuit performance. With increasing transistor counts on an integrated circuit, the damage-induced parasitics are becoming increasingly important. Electrical characterization of such effects provides a far more sensitive method for determining the extent of damage and the effectiveness of efforts to repair the damage. A measurement of diode leakage current through a plasma-etch effect test diode which is formed completely within an active device region, removed from field oxide regions quantifies the extent of damage created by a plasma and the effectiveness of a repair technique that may be applied to the process.

Abstract: Characterization of plasma-induced damage in semiconductor manufacturing has long been considered unimportant because the damage had no discernible effect on circuit performance. With increasing transistor counts on an integrated circuit, the damage-induced parasitics are becoming increasingly important. Electrical characterization of such effects provides a far more sensitive method for determining the extent of damage and the effectiveness of efforts to repair the damage. A measurement of diode leakage current through a plasma-etch effect test diode which is formed completely within an active device region, removed from field oxide regions quantifies the extent of damage created by a plasma and the effectiveness of a repair technique that may be applied to the process.

Abstract: A read only memory (ROM) array is disclosed which includes a) a voltage supply providing an operating voltage level, b) a plurality of word-lines, c) a multiplicity of ROM transistors, and d) a word-line clamper. The ROM transistors are divided into turned on and turned off transistors. Each ROM transistor has a gate connected to one of the word-lines, a gate oxide beneath the gate, whose thickness is less than 250 .ANG., and a channel beneath the gate oxide. The turned off transistors additionally have a ROM implant in their channel whose dosage is no larger than the amount which generates a predetermined desired minimal band-to-band tunneling current The ROM implant and gate oxide thickness define a threshold voltage for the tamed off tranistors, the threshold voltage being less than the operating voltage level. The word-line damper provides a word-line voltage to each of the word-lines, the word-line voltage being clamped to a voltage level no higher than the threshold voltage of the turned off transistor.

Abstract: A method of manufacturing a ROM array to minimize band-to-band tunneling is described. The method includes the steps of: a) implanting bit lines into the core area of a substrate as per a later-removed bit line mask, b) providing a ROM oxide layer over the entirety of the substrate, c) etching the ROM oxide layer only from the periphery area as per a later-removed core protect mask, d) providing a gate oxide layer over the entirety of the ROM array, e) laying down polysilicon rows in the core area as per a polysilicon mask and f) implanting a ROM implant into selected areas of the core area, thereby to produce turned off core transistors. The thickness of the gate oxide layer and the ROM oxide layer are independent of each other.