Abstract: Stepped photoresist profiles provide various methods of forming profiles in an underlying substrate. The stepped photoresist profiles are formed in two layers of photoresist that are disposed over the substrate. The substrate is then etched twice using a respective opening in each photoresist layer to create a stepped profile in the substrate.

Abstract: A method for storing a temperature threshold in an integrated circuit includes measuring operating parameters of the integrated circuit versus temperature, calculating a maximum temperature at which the integrated circuit performance exceeds predetermined specifications and storing parameters corresponding to the maximum temperature in a comparison circuit in the integrated circuit by selectively blowing fusable devices in the comparison circuit. The fusable devices may be antifuses. As a result, the integrated circuit is able to provide signals to devices external to the integrated circuit to indicate that the integrated circuit may be too hot to operate properly.

Abstract: An integrated circuit anti-fuse is described which is fabricated as a capacitor using a layer of oxide. The two plates of the anti-fuse are coupled to appropriate voltage levels to rupture the oxide and form a conductive short between the plates. One of the plates is formed as a diffused well which is coupled to an external voltage during programming. The well is biased to an internal voltage during normal operation of the circuit incorporating the anti-fuse.

Abstract: In one aspect, the invention provides a method of exposing a material from which photoresist cannot be substantially selectively removed utilizing photoresist. In still another aspect of the invention, laser ablation of photoresist is utilized. In one implementation, the invention comprises forming a first material over a substrate. Photoresist is deposited over the first material and an opening is formed within the photoresist over the first material. Etching is then conducted into the first material through the photoresist opening. After the etching, the photoresist is laser ablated from over the first material.

Abstract: A multiple core charge pump includes a plurality of switches disposed between the taps of a delay chain and the individual charge pump cores. When the switches are closed, an oscillating clock signal is permitted to propagate through the delay chain and reach individual charge pump cores via the taps. A regulator senses the output voltage of the charge pump. When the output node reaches the desired voltage, the regulator simultaneously causes each of the switches to open, decoupling each of the charge pump cores from the taps of the delay chain, and preventing signals which are still propagating through the delay chain from triggering the charge pump cores. A transition detector may also be used to narrow the pulse width of the oscillating clock signal which is applied to each switch.

Abstract: A method for interconnecting bit contacts and digit lines of a semiconductor device. A mask, through which portions of sidewall spacers of the digit lines located proximate the bit contacts are exposed, is positioned over the digit lines. Dopant is directed toward the semiconductor device at a nonperpendicular angle to a plane of the semiconductor device so as to dope portions of the sidewall spacers on one side of each of the digit lines while sidewall spacers opposed thereto and adjacent bit contacts are shielded from the dopant. Doped regions of the sidewall spacers may be removed with selectivity over undoped regions thereof to expose connect regions of each conductive element of each digit line. A conductive strap may then be formed to electrically link each connect region to its corresponding bit contact. Semiconductor devices including the conductive straps are also disclosed.

Abstract: Stepped photoresist profiles provide various methods of forming profiles in an underlying substrate. The stepped photoresist profiles are formed in two layers of photoresist that are disposed over the substrate. The substrate is then etched twice using a respective opening in each photoresist layer to create a stepped profile in the substrate.

Abstract: Stepped photoresist profiles provide various methods of forming profiles in an underlying substrate. The stepped photoresist profiles are formed in two layers of photoresist that are disposed over the substrate. The substrate is then etched twice using a respective opening in each photoresist layer to create a stepped profile in the substrate.

Abstract: A method for interconnecting bit contacts and digit lines of a semiconductor device. A mask, through which portions of sidewall spacers of the digit lines located proximate the bit contacts are exposed, is positioned over the digit lines. Dopant is directed toward the semiconductor device at a non-perpendicular angle to a plane of the semiconductor device so as to dope portions of the sidewall spacers on one side of each of the digit lines while sidewall spacers opposed thereto and adjacent bit contacts are shielded from the dopant. Doped regions of the sidewall spacers may be removed with selectivity over undoped regions thereof to expose connect regions of each conductive element of each digit line. A conductive strap may then be formed to electrically link each connect region to its corresponding bit contact. Semiconductor devices including the conductive straps are also disclosed.

Abstract: A thin film transistor includes: a) a thin film transistor layer comprising a source region, a channel region and a drain region; the thin film transistor layer further comprising a drain offset region positioned between the drain region and the channel region; b) the channel region being substantially polycrystalline and having a first average crystalline grain size; and c) the drain offset region being substantially polycrystalline and having a second average crystalline grain size, the second average crystalline grain size being larger than the first average crystalline grain size. A method for forming such a construction using polycrystalline materials, preferably polysilicon, and an amorphizing silicon implant with subsequent recrystallization is also disclosed.

Abstract: The invention includes field effect transistors and methods of forming field effect transistors. In one implementation, a field effect transistor includes a semiconductive channel region and a gate construction operatively proximate the channel region. The gate construction includes a conductive gate region and a gate dielectric region intermediate the channel region and the conductive gate region. The gate dielectric region includes a Ta2O5 comprising layer and a SiO2 comprising layer intermediate the Ta2O5 comprising layer and the channel region. The conductive gate region includes at least two different material layers, with one of the at least two layers comprising a first conductive material and another of the at least two layers comprising a conductive metal nitride which is received intermediate the Ta2O5 comprising layer and the one layer.

Abstract: In one aspect, the invention includes a semiconductor processing method of diffusing dopant into both n-type and p-type doped regions of a semiconductive substrate. A semiconductive material is provided. The semiconductive material has a first portion and a second portion. The first portion is a p-type doped portion and the second portion is an n-type doped portion. A mask material is formed over the p-type and n-type doped portions. A first opening is formed to extend through the mask material and to the n-type doped portion. A second opening is formed to extend through the mask material and to the p-type doped portion. Conductively doped polysilicon is formed within the first and second openings. Dopant is out-diffused from the conductively-doped polysilicon and into the n-type and p-type doped portions. In another aspect, the invention includes methods of forming CMOS constructions. In yet another aspect, the invention encompasses methods of forming DRAM constructions.

Abstract: A method is provided for combining the process steps for forming a resistor and interconnect into one process layer, thus eliminating the need for at least two mask steps. An oxide layer is formed over a region of a polysilicon layer in which the resistor will be formed. The oxide protects the resistor from further processing. A conductive layer is then deposited at least over the exposed portion of the polysilicon layer. In a first preferred embodiment, a refractory metal forms the conductive layer. The refractory metal is sintered or heated to form silicide over the exposed portion of the polysilicon layer, and the non-silicided metal is removed. The underlying layer may be doped as desired, before or after silicidation, for the first preferred embodiment. Thus, a resistor and conductive interconnect is formed within the same layer. Also disclosed is an embodiment in which the conductive layer need not be sintered, and an embodiment in which the resistor is formed in the sidewalls of a vertical cavity.

Abstract: A method of forming a thin film transistor relative to a substrate includes, a) providing a thin film transistor layer of polycrystalline material on a substrate, the polycrystalline material comprising grain boundaries; b) providing a fluorine containing layer adjacent the polycrystalline thin film layer; c) annealing the fluorine containing layer at a temperature and for a time period which in combination are effective to drive fluorine from the fluorine containing layer into the polycrystalline thin film layer and incorporate fluorine within the grain boundaries to passivate said grain boundaries; and d) providing a transistor gate operatively adjacent the thin film transistor layer. The thin film transistor can be fabricated to be bottom gated or top gated. A buffering layer can be provided intermediate the thin film transistor layer and the fluorine containing layer, with the buffering layer being transmissive of fluorine from the fluorine containing layer during the annealing.

Abstract: The invention includes a semiconductor processing method which comprises forming a first material layer over a substrate. A second material layer is formed over the first material layer. Photoresist is deposited over the second material layer, and an opening is formed within the photoresist to the second material layer. The second material layer is etched through the photoresist opening to a degree insufficient to outwardly expose the first material layer. The photoresist is then stripped from the substrate. Subsequently, the second material layer and the first material layer are blanket etched.

Abstract: A method of interconnecting bit contacts to corresponding digit lines of a semiconductor memory device. The method is particularly useful for fabricating semiconductor memory devices having digit lines that are less than about 0.2 microns wide and spaced less than about 0.2 microns apart from one another. A mask, which shields portions of the digit lines of the semiconductor device, through which portions of the digit lines proximate the bit contacts are exposed, is disposed over the semiconductor device. The mask preferably includes elongated apertures alignable transversely to the digit lines. Dopant is directed toward the semiconductor device at a non-perpendicular angle to a plane of the semiconductor device. Thus, portions of the sidewall spacers of one side of each of the digit lines, sidewall spacers on the opposite sides of the digit lines, or the bit contacts may not be exposed to dopant.

Abstract: A method of forming a thin film transistor relative to a substrate includes, a) providing a thin film transistor layer of polycrystalline material on a substrate, the polycrystalline material comprising grain boundaries; b) providing a fluorine containing layer adjacent the polycrystalline thin film layer; c) annealing the fluorine containing layer at a temperature and for a time period which in combination are effective to drive fluorine from the fluorine containing layer into the polycrystalline thin film layer and incorporate fluorine within the grain boundaries to passivate said grain boundaries; and d) providing a transistor gate operatively adjacent the thin film transistor layer. The thin film transistor can be fabricated to be bottom gated or top gated. A buffering layer can be provided intermediate the thin film transistor layer and the fluorine containing layer, with the buffering layer being transmissive of fluorine from the fluorine containing layer during the annealing.

Abstract: A thin film transistor includes, a) a thin film source region; b) a thin film drain region; c) a polycrystalline thin film channel region intermediate the thin film source region and the thin film drain region; d) a transistor gate and gate dielectric operatively positioned adjacent the thin film channel region; and e) the thin film channel region comprising at least an inner layer, an outer layer and a middle layer sandwiched between the inner layer and the outer layer, the inner layer and the outer layer comprising polycrystalline silicon and having respective energy bandgaps, the middle sandwich layer comprising a polycrystalline material and having a lower energy bandgap than either of the inner and outer layers. Alternately, the channel region is homogeneous, comprising germanium or an alloy of polycrystalline silicon and germanium.

Abstract: Impurities are added to a conductor layer in a semiconductor process to prevent formation of void spaces and encourage complete filling of contacts. The impurities reduce the melting point and surface tension of a conductor layer, thereby improving filling characteristics during a reflow step. The impurities may be added at any time during the process, including during conductor deposition and/or reflow.

Abstract: In one aspect, the invention provides a method of exposing a material from which photoresist cannot be substantially selectively removed utilizing photoresist. In one preferred implementation, a first material from which photoresist cannot be substantially selectively removed is formed over a substrate. At least two different material layers are formed over the first material. Photoresist is deposited over the two layers and an opening formed within the photoresist over an outermost of the two layers. First etching is conducted through the outermost of the two layers within the photoresist opening to outwardly expose an innermost of the two layers and form an exposure opening thereto. After the first etching, photoresist is stripped from the substrate. After the stripping, a second etching is conducted of the innermost of the two layers within the exposure opening.