Abstract: An anti-fuse structure that can be programmed at low voltage and current and which potentially consumes very little chip spaces and can be formed interstitially between elements spaced by a minimum lithographic feature size is formed on a composite substrate such as a silicon-on-insulator wafer by etching a contact through an insulator to a support semiconductor layer, preferably in combination with formation of a capacitor-like structure reaching to or into the support layer. The anti-fuse may be programmed either by the selected location of conductor formation and/or damaging a dielectric of the capacitor-like structure. An insulating collar is used to surround a portion of either the conductor or the capacitor-like structure to confine damage to the desired location. Heating effects voltage and noise due to programming currents are effectively isolated to the bulk silicon layer, permitting programming during normal operation of the device.

Abstract: A composite, layered, integrated circuit formed by bonding of insulator layers on wafers provides for combination of otherwise incompatible technologies such as trench capacitor DRAM arrays and high performance, low power, low voltage silicon on insulator (SOI) switching transistors and short signal propagation paths between devices formed on respective wafer layers of a chip. In preferred embodiments, an SOI wafer is formed by hydrophilic bonding of a wafer over an integrated circuit device and then cleaving a layer of the second wafer away using implanted hydrogen and low temperature heat treatment. Further wafers of various structures and compositions may be bonded thereover and connections between circuit elements and connection pads in respective wafers made using short vias that provide fast signal propagation as well as providing more numerous connections than can be provided on chip edges.

Abstract: A DC analog circuit which monitors a DRAM sample cell access device and outputs a DC reference voltage to the word line voltage regulation system. The resulting output voltage Vpp from the word line voltage regulation system will then vary in accordance with the cell access device parametrics so as to guarantee a full high level will always be written into the DRAM cell.

Abstract: A method and structure for selectively growing epitaxial silicon in a trench formed within a silicon-on-insulator (SOI) structure. The SOI structure includes a buried oxide layer (BOX) on a bulk silicon substrate, and a silicon layer on the BOX. A pad layer is formed on the silicon layer. The pad layer includes a pad nitride (e.g., silicon nitride) on a pad oxide (e.g., silicon dioxide), and the pad oxide has been formed on the silicon layer. A trench is formed by anisotropically etching through the pad layer, the silicon layer, the BOX, and to a depth within the bulk silicon substrate. Insulative spacers are formed on sidewalls of the trench. An epitaxial silicon layer is grown in the trench from a bottom of the trench to above the pad layer. The pad layer and portions of the epitaxial layer are removed (e.g., by chemical mechanical polishing), resulting in a planarized top surface of the epitaxial layer that is about coplanar with a top surface of the silicon layer.

Abstract: A burn-in process is provided for a memory array having redundant bits and addressable storage locations. The burn-in process includes the steps of raising the temperature of the memory array to a pre-determined temperature, testing all bits in the array, detecting faulty bits and operable bits, replacing faulty bits with redundant operable bits, correcting any defects in the array in-situ, and lowering the temperature of the memory array to ambient temperature to complete the burn-in process. An apparatus for carrying out the above process is provided that includes a test circuit for generating a test pattern and for applying the test pattern to the memory array so as to test all bits within the memory array. A comparison circuit, coupled to the test circuit and adapted to couple to the memory array, compares an actual response and an expected response of the memory array to the test pattern and detects faulty and operable bits based thereon.

Abstract: An integrated circuit chip is provided having both a conventional DRAM vertical transfer device and an integrated vertical storage capacitor or anti-fuse that can be accessed directly without having to turn on a transfer gate. The mechanism for accessing the integrated capacitor or anti-fuse directly can be a modified doping profile within the vertical cell that provides a low resistance punch-through FET. Alternatively, the mechanism can be a pair of overlapping or nearly overlapping diffusions within the vertical cell.

Abstract: A method for detecting semiconductor process stress-induced defects. The method comprising: providing a polysilicon-bounded test diode, the diode comprising a diffused first region within an upper portion of a second region of a silicon substrate, the second region of an opposite dopant type from the first region, the first region surrounded by a peripheral dielectric isolation, a peripheral polysilicon gate comprising a polysilicon layer over a dielectric layer and the gate overlapping a peripheral portion of the first region; stressing the diode; and monitoring the stressed diode for spikes in gate current during the stress, determining the frequency distribution of the slope of the forward bias voltage versus the first region current at the pre-selected forward bias voltage and monitoring, after stress, the diode for soft breakdown. A DRAM cell may be substituted for the diode. The use of the diode as an antifuse is also disclosed.

Abstract: A structure including a first device and a second device, wherein the second device has a dielectric thickness greater than the dielectric thickness of the first device, and the method of so forming the structure.

Abstract: A flash memory array having a plurality of bitlines, at least one wordline and a plurality of flash memory flash memory elements, wherein each flash memory element includes two transistors for storing two bits, and wherein each flash memory element is positioned between a pair of adjacent bitlines. A method is also presented for fabricating the flash memory array having the plurality of flash memory elements, wherein each flash memory element is configured for storing two bits.

Abstract: A method and structure for selectively growing epitaxial silicon in a trench formed within a silicon-on-insulator (SOI) structure. The SOI structure includes a buried oxide layer (BOX) on a bulk silicon substrate, and a silicon layer on the BOX. A pad layer is formed on the silicon layer. The pad layer includes a pad nitride (e.g., silicon nitride) on a pad oxide (e.g., silicon dioxide), and the pad oxide has been formed on the silicon layer. A trench is formed by anisotropically etching through the pad layer, the silicon layer, the BOX, and to a depth within the bulk silicon substrate. Insulative spacers are formed on sidewalls of the trench. An epitaxial silicon layer is grown in the trench from a bottom of the trench to above the pad layer. The pad layer and portions of the epitaxial layer are removed (e.g., by chemical mechanical polishing), resulting in a planarized top surface of the epitaxial layer that is about coplanar with a top surface of the silicon layer.

Abstract: A structure and method for providing an antifuse which is closed by laser energy with an electrostatic assist. Two or more metal segments are formed over a semiconductor structure with an air gap or a porous dielectric between the metal segments. Pulsed laser energy is applied to one or more of the metal segments while a voltage potential is applied between the metal segments to create an electrostatic field. The pulsed laser energy softens the metal segment, and the electrostatic field causes the metal segments to move into contact with each other. The electrostatic field reduces the amount of laser energy which must be applied to the semiconductor structure to close the antifuse.

Abstract: A composite, layered, integrated circuit formed by bonding of insulator layers on wafers provides for combination of otherwise incompatible technologies such as trench capacitor DRAM arrays and high performance, low power, low voltage silicon on insulator (SOI) switching transistors and short signal propagation paths between devices formed on respective wafer layers of a chip. In preferred embodiments, an SOI wafer is formed by hydrophilic bonding of a wafer over an integrated circuit device and then cleaving a layer of the second wafer away using implanted hydrogen and low temperature heat treatment. Further wafers of various structures and compositions may be bonded thereover and connections between circuit elements and connection pads in respective wafers made using short vias that provide fast signal propagation as well as providing more numerous connections than can be provided on chip edges.

Abstract: A simple, low-cost package consisting of a plurality of charge-coupled devices (CCD) having a transparent cover integrated to the CCDs is described. Interconnecting wires having a fine pitch are defined on the cover away from the light sensitive area of the CCDs to provide enhanced wiring capability. The cover is constructed on the same semiconductor wafer containing the CCDs, which are preferably arranged in a matrix formation, allowing the wafer to be diced into individual chips having any desired number of CCDs, all of which are protected by the integrated transparent cover facing the light sensitive surface of the CCDs. This structure has the further advantage of reducing defects by mounting the cover before dicing and handling the individual chips only after the cover window is already in place. Dicping width control is achieved using oxide trench as an etch channel.

Abstract: A method and structure for a field effect transistor structure for dynamic random access memory integrated circuit devices has a gate conductor, salicide regions positioned along sides of the gate conductor, a gate cap positioned above the gate conductor and at least one self-aligned contact adjacent the gate conductor.

Abstract: An isolation region for a memory array in which the isolation region includes at least one trench region having sidewalls that extend to a bottom surface and a slit region formed beneath the final trench region, wherein the slit region is narrower than the overlying trench regions and has a void formed intentionally therein is provided.

Abstract: A field effect transistor has an inverse-T gate conductor having a thicker center portion and thinner wings. The wings may be of a different material different than the center portion. In addition, gate dielectric may be thicker along edges than in the center. Doping can also be different under the wings than along the center portion or beyond the gate. Regions under the wings may be doped differently than the gate conductor. With a substantially vertical implant, a region of the channel overlapped by an edge of the gate is implanted without implanting a center portion of the channel, and this region is blocked from receiving at least a portion of the received by thick portions of the gate electrode.

Abstract: A current sensing circuit connected to a power supply terminal and having at least one input terminal and at least one output terminal includes at least one bipolar transistor having a base, emitter and collector, at least one current mirror amplifier connected to the power supply terminal, the current mirror amplifier having an input connected to the collector and having at least one output connected to the emitter, and a DC voltage source connected to the base.

Abstract: A method and structure for conductively coupling electrical structures to a semiconductor device located under a silicon on insulator (SOI) layer. The SOI layer is formed on a bulk semiconductor substrate. A trench structure through the SOI layer is formed, wherein an end of the trench structure interfaces with the bulk semiconductor substrate. A semiconductor device is formed in the bulk semiconductor substrate, wherein the semiconductor device includes P+ and N+ diffusions. Conductive plugs are formed through the trench structure such that the conductive plugs are self-aligned with, and in conductive contact with, the diffusions. The semiconductor device in the bulk semiconductor substrate may include an electrostatic discharge device (ESD). The bulk semiconductor substrate, which has a high thermal conductivity, serves as an effective medium for dissipating heat generated by the ESD.

Abstract: A structure and method for providing an antifuse which is closed by laser energy with an electrostatic assist. Two or more metal segments are formed over a semiconductor structure with an air gap or a porous dielectric between the metal segments. Pulsed laser energy is applied to one or more of the metal segments while a voltage potential is applied between the metal segments to create an electrostatic field. The pulsed laser energy softens the metal segment, and the electrostatic field causes the metal segments to move into contact with each other. The electrostatic field reduces the amount of laser energy which must be applied to the semiconductor structure to close the antifuse.

Abstract: An automatic driver adjuster and methods using the same are provided that modify off-chip drivers based on load characteristics. The preferred embodiments are preferably automatic and require little or no human intervention. Preferred embodiments of the current invention analyze and determine the impedance of a node and adjust a number of output drivers in response to the impedance of the node, or analyze a resultant waveform of the node, caused by an input waveform, and adjust a number of output drivers in response to the resultant waveform of the node.