Abstract: An improved method for fabricating a three dimensional monolithic memory with increased density. The method includes forming conductors preferably comprising tungsten, then filling and planarizing; above the conductors forming semiconductor elements preferably comprising two diode portions and an antifuse, then filling and planarizing; and continuing to form conductors and semiconductor elements in multiple stories of memories. The arrangement of processing steps and the choice of materials decreases aspect ratio of each memory cell, improving the reliability of gap fill and preventing etch undercut.

Abstract: An improved method for fabricating a three dimensional monolithic memory with increased density. The method includes forming conductors preferably comprising tungsten, then filling and planarizing; above the conductors forming semiconductor elements preferably comprising two diode portions and an antifuse, then filling and planarizing; and continuing to form conductors and semiconductor elements in multiple stories of memories. The arrangement of processing steps and the choice of materials decreases aspect ratio of each memory cell, improving the reliability of gap fill and preventing etch undercut.

Abstract: An improved method for fabricating a three dimensional monolithic memory with increased density. The method includes forming conductors preferably comprising tungsten, then filling and planarizing; above the conductors forming semiconductor elements preferably comprising two diode portions and an antifuse, then filling and planarizing; and continuing to form conductors and semiconductor elements in multiple stories of memories. The arrangement of processing steps and the choice of materials decreases aspect ratio of each memory cell, improving the reliability of gap fill and preventing etch undercut.

Abstract: An improved memory module and method of manufacture are presented. The memory module takes on the same outer dimensions as conventional memory cards. The memory module includes an integrated circuit and a conductor encased within molded resin. The conductor can be taken from a tape or a lead frame, and can include bumps or wires extending from the conductor to corresponding bonding pads on the integrated circuit. The bonded integrated circuit can thereafter be placed within a cavity formed inside a mold housing, where resin may be injected to form the memory module. The conductor can also be shaped so as to extend on multiple planes from the connection point on or near the bonding pad to an edge connector residing near one edge only of the memory module. The conductor is thereby connected to the integrated circuit and provides slide-in, releasable coupling to a receptor.

Abstract: There is provided a monolithic three dimensional TFT mask ROM array. The array includes a plurality of device levels. Each of the plurality of device levels contains a first set of enabled TFTs and a second set of partially or totally disabled TFTs.

Abstract: A multiple-mode memory includes a three-dimensional array of word lines, bit lines and memory cells. The memory cells are arranged in multiple vertically stacked layers. In some layers the memory cells are implemented as field-programmable write-once memory cells, and in other layers the memory cells are implemented as field-programmable re-writable memory cells. In this way, both re-writability and permanent data storage are provided in an inexpensive, single-chip solution. Additional types and numbers of types of memory cells can be used.

Abstract: A low-density, high-resistivity layer of a PVD sputter-deposited material, preferably titanium nitride, when coupled with a dielectric, makes a superior low-leakage insulating barrier for use in semiconductor devices. The material is created by sputtering methods that cause the ions to strike the deposition surface with reduced energy, for example in an ion metal plasma chamber with no self-bias accelerating ions normal to the deposition surface, or in a standard PVD chamber with pressure increased.

Abstract: A method to form a vertical interconnect advantageous for high-density semiconductor devices. A conductive etch stop layer, preferably of cobalt silicide, is formed. The etch stop layer may be in the form of patterned lines or wires. A layer of contact material is formed on and in contact with the etch stop layer. The layer of contact material is patterned to form posts. Dielectric is deposited over and between the posts, then the dielectric planarized to expose the tops of the posts. The posts can serve as vertical interconnects which electrically connect a next conductive layer formed on and in contact with the vertical interconnects with the underlying etch stop layer. The patterned dimension of vertical interconnects formed according to the present invention can be substantially the same as the minimum feature size, even at very small minimum feature size.

Abstract: An improved charge pump circuit efficiently utilizes multiple charge pump stages to produce output voltages much larger than the power supply voltage by incorporating, in some embodiments, two parallel strings of series-coupled charge pump stages. Each corresponding charge pump stage in one string is controlled at least by a node in the corresponding charge pump stage of the other string.

Abstract: The embodiments herein describe a memory device and method for reading and writing data. In one embodiment, a memory device is provided comprising a memory array and first and second data buffers in communication with the memory array. The second data buffer comprises a larger storage capacity than the first data buffer. During a write operation, data is stored in the second data buffer and then stored in the memory array. During a read operation, data is read from the memory array and then stored in the first data buffer but not in the second data buffer. Because the smaller-storage-capacity buffer takes less time to fill than the larger-storage-capacity buffer, there is less of a delay in outputting data from the memory device as compared to memory devices that use a larger-storage-capacity buffer for both read and write operations. Other embodiments are provided, and each of the embodiments can be used alone or in combination with one another.

Abstract: A semiconductor device contains a word line, a charge storage region located above the word line, an active layer located above the charge storage region, a patterned etch stop layer located above a first portion of the active layer, and bit lines located over a portion of the etch stop layer and over second portions of the active layer.

Abstract: A method to create a low resistivity P+ in-situ doped polysilicon film at low temperature from SiH4 and BCl3 with no anneal required. At conventional dopant concentrations using these source gases, as deposition temperature decreases below about 550 degrees C., deposition rate decreases and sheet resistance increases, making production of a high-quality film impossible. By flowing very high amounts of BCl3, however, such that the concentration of boron atoms in the resultant film is about 7×1020 or higher, the deposition rate and sheet resistance are improved, and a high-quality film is produced.

Abstract: A monolithic three dimensional memory array comprising Schottky diodes components separated by antifuses is disclosed. The Schottky diodes are vertically oriented and disposed on alternating levels. Those on odd levels are “rightside-up” with antifuse over the metal, and those on even levels are “upside down” with metal over the antifuse. Both antifuses are preferably grown oxides.

Abstract: In a passive element memory array, such as a rail stack array having a continuous semiconductor region along one or both of the array lines, programming a memory cell may disturb nearby memory cells as result of a leakage path along the array line from the selected cell to the adjacent cell. This effect may be reduced substantially by changing the relative timing of the programming pulses applied to the array lines for the selected memory cell, even if the voltages are unchanged. In an exemplary three-dimensional antifuse memory array, a positive-going programming pulse applied to the anode region of the memory cell preferably is timed to lie within the time that a more lightly-doped cathode region is pulsed low.

Abstract: The preferred embodiments described herein provide a memory device and methods for use therewith. In one preferred embodiment, a method is presented for using a file system to dynamically respond to variability in an indicated minimum number of memory cells of first and second write-once memory devices. In another preferred embodiment, a method for overwriting data in a memory device is described in which an error code is disregarded after a destructive pattern is written. In yet another preferred embodiment, a method is presented in which, after a block of memory has been allocated for a file to be stored in a memory device, available lines in that block are determined. Another preferred embodiment relates to reserving at least one memory cell in a memory device for file structures or file system structures. A memory device is also provided in which file system structures of at least two file systems are stored in the same memory partition.

Abstract: A semiconductor device, such as an inverted staggered thin film transistor, includes a gate electrode, a gate insulating layer located above the gate electrode, an active layer located above the gate insulating layer and an insulating fill layer located above the active layer. A first opening and a second opening are located in the insulating fill layer, a first source or drain electrode is located in the first opening and a second source or drain electrode is located in the second opening. At least one of the first and the second source or drain electrodes comprise a polysilicon layer and a metal silicide layer.

Abstract: A method to create a low resistivity P+ in-situ doped polysilicon film at low temperature from SiH4 and BCl3 with no anneal required. At conventional dopant concentrations using these source gases, as deposition temperature decreases below about 550 degrees C., deposition rate decreases and sheet resistance increases, making production of a high-quality film impossible. By flowing very high amounts of BCl3, however, such that the concentration of boron atoms in the resultant film is about 7×1020 or higher, the deposition rate and sheet resistance are improved, and a high-quality film is produced.

Abstract: A three-dimensional memory array includes a plurality of rail-stacks on each of several levels forming alternating levels of X-lines and Y-lines for the array. Memory cells are formed at the intersection of each X-line and Y-line. The memory cells of each memory plane are all oriented in the same direction relative to the substrate, forming a serial chain diode stack. In certain embodiments, row and column circuits for the array are arranged to interchange function depending upon the directionality of memory cells in the selected memory plane. High-voltage drivers for the X-lines and Y-lines are each capable of passing a write current in either direction depending on the direction of the selected memory cell. A preferred bias arrangement reverse biases only unselected memory cells within the selected memory plane, totaling approximately N2 memory cells, rather than approximately 3N2 memory cells as with prior arrays.

Abstract: There is provided a monolithic three dimensional array of charge storage devices which includes a plurality of device levels, wherein at least one surface between two successive device levels is planarized by chemical mechanical polishing.

Abstract: There is provided a monolithic three dimensional array of charge storage devices which includes a plurality of device levels, wherein at least one surface between two successive device levels is planarized by chemical mechanical polishing.