Patents by Inventor Farid Nemati
Farid Nemati has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6911680Abstract: A semiconductor memory device having a thyristor is manufactured in a manner that makes possible self-alignment of one or more portions of the thyristor. According to an example embodiment of the present invention, a gate is formed over a first portion of doped substrate. The gate is used to mask a portion of the doped substrate and a second portion of the substrate is doped before or after a spacer is formed. After the second portion of the substrate is doped, the spacer is then formed adjacent to the gate and used to mask the second portion of the substrate while a third portion of the substrate is doped. The gate and spacer are thus used to form self-aligned doped portions of the substrate, wherein the first and second portions form base regions and the third portion form an emitter region of a thyristor.Type: GrantFiled: July 13, 2004Date of Patent: June 28, 2005Assignee: T-RAM, Inc.Inventors: Andrew Horch, Scott Robins, Farid Nemati
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Patent number: 6891205Abstract: A semiconductor device having a thyristor-based memory device exhibits improved stability under adverse operating conditions related to temperature, noise, electrical disturbances and light. In one particular example embodiment of the present invention, a semiconductor device includes a thyristor-based memory device that uses a shunt that effects a leakage current in the thyristor. The thyristor includes a capacitively-coupled control port and anode and cathode end portions. Each of the end portions has an emitter region and an adjacent base region. In one implementation, the current shunt is located between the emitter and base region of one of the end portions of the thyristor and is configured and arranged to shunt low-level current therebetween.Type: GrantFiled: September 19, 2003Date of Patent: May 10, 2005Assignee: T-Ram, Inc.Inventors: Hyun-Jin Cho, Farid Nemati, Scott Robins
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Patent number: 6888177Abstract: A thyristor-based semiconductor device exhibits a relatively increased base-emitter capacitance. According to an example embodiment of the present invention, the junction area between a base region and an adjacent emitter region of a thyristor is increased, relative to the junction area between other regions in the thyristor. In one implementation, the base region is formed extending on two sides of the emitter region. In another implementation, the thyristor is formed on a buried insulator layer of a silicon-on-insulator (SOI) structure, with the base region having a first portion laterally adjacent to the emitter region and having a second portion between the emitter region and the buried insulator.Type: GrantFiled: September 24, 2002Date of Patent: May 3, 2005Assignee: T-RAM, Inc.Inventors: Farid Nemati, Scott Robins, Andrew Horch
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Patent number: 6885581Abstract: A dynamically-operating restoration circuit (106) is used to apply a voltage or current restore pulse signal to thyristor-based memory cells (108) and therein restore data in the cell using the internal positive feedback loop of the thyristor (110). In one example implementation, the internal positive feedback loop in the thyristor (110) is used to restore the conducting state of a device after the thyristor current drops below the holding current. A pulse and/or periodic waveform are defined and applied to ensure that the thyristor is not released from its conducting state. The time average of the periodic restore current in the thyristor may be lower than the holding current threshold. While not necessarily limited to memory cells that are thyristor-based, various embodiments of the invention have been found to be the particularly useful for high-speed, low-power memory cells in which a thin capacitively-coupled thyristor is used to provide a bi-stable storage element.Type: GrantFiled: April 5, 2002Date of Patent: April 26, 2005Assignee: T-RAM, Inc.Inventors: Farid Nemati, Hyun-Jin Cho, Robert Homan Igehy
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Patent number: 6872602Abstract: Switching times of a thyristor-based semiconductor device are improved by enhancing carrier drainage from a buried thyristor-emitter region. According to an example embodiment of the present invention, a conductive contact extends to a doped well region buried in a substrate and is adapted to drain carriers therefrom. The device includes a thyristor body having at least one doped emitter region buried in the doped well region. A conductive thyristor control port is adapted to capacitively couple to the thyristor body and to control current flow therein. With this approach, the thyristor can be rapidly switched between resistance states, which has been found to be particularly useful in high-speed data latching implementations including but not limited to memory cell applications.Type: GrantFiled: February 23, 2004Date of Patent: March 29, 2005Assignee: T-RAM, Inc.Inventors: Farid Nemati, Badredin Fatemizadeh, Andrew Horch, Scott Robins
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Patent number: 6828176Abstract: A thyristor-based semiconductor device exhibits a relatively increased base-emitter capacitance. According to an example embodiment of the present invention, a base region and an adjacent emitter region of a thyristor are doped such that the emitter region has a lightly-doped portion having a light dopant concentration, relative to the base region. In one embodiment, the thyristor is implemented in a memory circuit, wherein the emitter region is coupled to a reference voltage line and a control port is arranged for capacitively coupling to the thyristor for controlling current flow therein. In another implementation, the thyristor is formed on a buried insulator layer of a silicon-on-insulator (SOI) structure. With these approaches, current flow in the thyristor, e.g., for data storage therein, can be tightly controlled.Type: GrantFiled: August 28, 2003Date of Patent: December 7, 2004Assignee: T-Ram, Inc.Inventors: Farid Nemati, Scott Robins, Andrew Horch
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Patent number: 6785169Abstract: The soft error rate in a semiconductor memory is improved via the use of a circuit and arrangement adapted to use a mirror bit to recover from a soft error. According to an example embodiment of the present invention, a semiconductor device includes first and mirror memory cells configured and arranged to receive and store a same bit in response to a write operation, with the memory cells more susceptible to a bit error in which the stored bit changes from a first state to a second state than to a change from the second state into the first state. The memory cells are separated by a distance that is sufficient to make the likelihood of both memory cells being upset by a same source very low. For a read operation, the bits stored at the fist and second memory cells are compared. If the bits are the same, the bit from the first and/or mirror bit is read out, and if the bits are different, a bit corresponding to the more susceptible state is read out. In this manner, soft errors can be overcome.Type: GrantFiled: April 5, 2002Date of Patent: August 31, 2004Assignee: T-Ram, Inc.Inventors: Farid Nemati, Mahmood Reza Kasnavi, Robert Homan Igehy
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Publication number: 20040159853Abstract: A thyristor device can be used to implement a variety of semiconductor memory circuits, including high-density memory-cell arrays and single cell circuits. In one example embodiment, the thyristor device includes doped regions of opposite polarity, and a first word line that is used to provide read and write access to the memory cell. A second word line is located adjacent to and separated by an insulative material from one of the doped regions of the thyristor device for write operations to the memory cell, for example, by enhancing the switching of the thyristor device from a high conductance state to a low conductance state and/or from the low conductance state to the high conductance. This type of memory circuit can be implemented to significantly reduce standby power consumption and access time.Type: ApplicationFiled: February 12, 2004Publication date: August 19, 2004Inventors: Farid Nemati, James D. Plummer
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Patent number: 6777271Abstract: A semiconductor device includes a thyristor designed to reduce or eliminate manufacturing and operational difficulties commonly experienced in the formation and operation of NDR devices. According to one example embodiment of the present invention, the semiconductor substrate is trenched adjacent a doped or dopable substrate region, which is formed to included at least two vertically-adjacent thyristor regions of different polarity. A capacitively-coupled control port for the thyristor is coupled to at least one of the thyristor regions. The trench also includes a dielectric material for electrically insulating the vertically-adjacent thyristor regions. The thyristor is electrically connected to other circuitry in the device, such as a transistor, and used to form a device, such as a memory cell.Type: GrantFiled: July 23, 2002Date of Patent: August 17, 2004Assignee: T-Ram, Inc.Inventors: Scott Robins, Andrew Horch, Farid Nemati, Hyun-Jin Cho
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Patent number: 6778435Abstract: A memory architecture especially adapted to provide an architecture to house one or more TCCT-based memory cells and to provide a reference signal. The memory architecture is designed to effectively resolve stored information from memory cells into logical values, such as logical “0” and “1.” An exemplary memory architecture includes a data block that comprises a first set of one or more bit lines, where a word line one line extends to a first subset of the first set of the one or more bit lines. The data block also includes a word line two line extending to a second subset of the first set of the one or more bit lines. A memory cell is coupled to the word line one line, the word line two line and a common bit line of the first and second subsets of bit lines.Type: GrantFiled: June 12, 2002Date of Patent: August 17, 2004Assignee: T-Ram, Inc.Inventors: Jin-Man Han, Farid Nemati, Seong-Ook Jeong
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Patent number: 6767770Abstract: A semiconductor memory device having a thyristor is manufactured in a manner that makes possible self-alignment of one or more portions of the thyristor. According to an example embodiment of the present invention, a gate is formed over a first portion of doped substrate. The gate is used to mask a portion of the doped substrate and a second portion of the substrate is doped before or after a spacer is formed. After the second portion of the substrate is doped, the spacer is then formed adjacent to the gate and used to mask the second portion of the substrate while a third portion of the substrate is doped. The gate and spacer are thus used to form self-aligned doped portions of the substrate, wherein the first and second portions form base regions and the third portion form an emitter region of a thyristor.Type: GrantFiled: October 1, 2002Date of Patent: July 27, 2004Assignee: T-Ram, Inc.Inventors: Andrew Horch, Scott Robins, Farid Nemati
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Patent number: 6756612Abstract: Switching times of a thyristor-based semiconductor device are improved by enhancing carrier drainage from a buried thyristor-emitter region. According to an example embodiment of the present invention, a conductive contact extends to a doped well region buried in a substrate and is adapted to drain carriers therefrom. The device includes a thyristor body having at least one doped emitter region buried in the doped well region. A conductive thyristor control port is adapted to capacitively couple to the thyristor body and to control current flow therein. With this approach, the thyristor can be rapidly switched between resistance states, which has been found to be particularly useful in high-speed data latching implementations including but not limited to memory cell applications.Type: GrantFiled: October 28, 2002Date of Patent: June 29, 2004Assignee: T-RAM, Inc.Inventors: Farid Nemati, Badredin Fatemizadeh, Andrew Horch, Scott Robins
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Patent number: 6727529Abstract: A novel capacitively coupled NDR device can be used to implement a variety of semiconductor circuits, including high-density SRAM cells and power thyristor structures. In one example embodiment, the NDR device is used as a thin vertical PNPN structure with capacitively-coupled gate-assisted turn-off and turn-on mechanisms. An SRAM based on this new device is comparable in cell area, standby current, architecture, speed, and fabrication process to a DRAM of the same capacity. In one embodiment, an NDR-based SRAM cell consists of only two elements, has an 8 F2 footprint, can operate at high speeds and low voltages, has a good noise-margin, and is compatible in fabrication process with main-stream CMOS. This cell significantly reduces standby power consumption compared to other types of NDR-based SRAMs.Type: GrantFiled: March 20, 2002Date of Patent: April 27, 2004Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Farid Nemati, James D. Plummer
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Patent number: 6727528Abstract: A semiconductor device includes a thyristor designed to reduce or eliminate manufacturing and operational difficulties commonly experienced in the formation and operation of NDR devices. According to one example embodiment of the present invention, the semiconductor substrate is trenched adjacent a doped or dopable substrate region, which is formed to include at least two vertically-adjacent thyristor regions of different polarity. A capacitively-coupled control port for the thyristor is coupled to at least one of the thyristor regions. The trench also includes a dielectric material for electrically insulating the vertically-adjacent thyristor regions. The thyristor is electrically connected to other circuitry in the device, such as a transistor, and used to form a device, such as a memory cell.Type: GrantFiled: March 22, 2001Date of Patent: April 27, 2004Assignee: T-RAM, Inc.Inventors: Scott Robins, Andrew Horch, Farid Nemati, Hyun-Jin Cho
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Patent number: 6703646Abstract: A thyristor-based semiconductor device exhibits a relatively increased base-emitter capacitance. According to an example embodiment of the present invention, a base region and an adjacent emitter region of a thyristor are doped such that the emitter region has a lightly-doped portion having a light dopant concentration, relative to the base region. In one embodiment, the thyristor is implemented in a memory circuit, wherein the emitter region is coupled to a reference voltage line and a control port is arranged for capacitively coupling to the thyristor for controlling current flow therein. In another implementation, the thyristor is formed on a buried insulator layer of a silicon-on-insulator (SOI) structure. With these approaches, current flow in the thyristor, e.g., for data storage therein, can be tightly controlled.Type: GrantFiled: September 24, 2002Date of Patent: March 9, 2004Assignee: T-Ram, Inc.Inventors: Farid Nemati, Scott Robins, Andrew Horch
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Patent number: 6690038Abstract: A semiconductor device having a thyristor is arranged in a manner that reduces or eliminates manufacturing difficulties commonly experienced in the formation of such devices, as well as facilitates the implementation of the semiconductor device in a variety of applications. According to an example embodiment of the present invention, a thyristor is formed having some or all of the body of the thyristor extending above a substrate surface of a semiconductor device. The semiconductor device includes at least one transistor having source/drain regions formed in the substrate prior to the formation of the thyristor. One or more layers of material are deposited on the substrate surface and used to form a portion of a body of the thyristor that includes anode and cathode end portions. Each end portion is formed having a base region and an emitter region, and at least one of the end portions includes a portion that is in the substrate and electrically coupled to the transistor.Type: GrantFiled: July 23, 2002Date of Patent: February 10, 2004Assignee: T-Ram, Inc.Inventors: Hyun-Jin Cho, Andrew Horch, Scott Robins, Farid Nemati
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Patent number: 6690039Abstract: A semiconductor device is adapted to inhibit the formation of a parasitic MOS-inversion channel between an emitter region and a gated base in a capacitively-coupled thyristor device. According to an example embodiment of the present invention, a thyristor having first and second base regions coupled between emitter regions is gated, via one of the base regions, to a control port. The control port exhibits a workfunction between the control port and the base region that inhibits the formation of a conductive channel between the base region and an adjacent emitter region, such as when the semiconductor device is in a standby and/or a read mode for memory implementations. The workfunction is selected such that the parasitic MOS-inversion channel would turn on is sufficiently high to enable the operation of the device at voltages that are optimized for a particular implementation while remaining below VT.Type: GrantFiled: October 1, 2002Date of Patent: February 10, 2004Assignee: T-Ram, Inc.Inventors: Farid Nemati, Andrew Horch, Scott Robins
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Patent number: 6653174Abstract: A semiconductor device having a thyristor is manufactured in a manner that reduces or eliminates manufacturing difficulties commonly experienced in the formation of such devices. According to an example embodiment of the present invention, a thyristor is formed having some or all of the body of the thyristor extending above a substrate surface of a semiconductor device. The semiconductor device includes at least one transistor having source/drain regions formed in the substrate prior to the formation of the thyristor. One or more layers of material are deposited on the substrate surface and used to form a portion of a body of the thyristor that includes anode and cathode end portions. Each end portion is formed having a base region and an emitter region, and at least one of the end portions includes a portion that is in the substrate and electrically coupled to the transistor. A control port is formed capacitively coupled to at least one of the base regions.Type: GrantFiled: December 17, 2001Date of Patent: November 25, 2003Assignee: T-RAM, Inc.Inventors: Hyun-Jin Cho, Andrew Horch, Scott Robins, Farid Nemati
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Patent number: 6653175Abstract: A semiconductor device having a thyristor-based memory device exhibits improved stability under adverse operating conditions related to temperature, noise, electrical disturbances and light. In one particular example embodiment of the present invention, a semiconductor device includes a thyristor-based memory device that uses a shunt that effects a leakage current in the thyristor. The thyristor includes a capacitively-coupled control port and anode and cathode end portions. Each of the end portions has an emitter region and an adjacent base region. In one implementation, the current shunt is located between the emitter and base region of one of the end portions of the thyristor and is configured and arranged to shunt low-level current therebetween.Type: GrantFiled: August 28, 2002Date of Patent: November 25, 2003Assignee: T-Ram, Inc.Inventors: Farid Nemati, Hyun-Jin Cho, Scott Robins
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Patent number: 6583452Abstract: A thyristor-based semiconductor device has a thyristor that exhibits increased capacitive coupling between a conductive structure and a portion of a thyristor. According to an example embodiment of the present invention, the thyristor-based semiconductor device is manufactured having an extended portion that is outside a current path through the thyristor and that capacitively couples a conductive structure to a portion of the thyristor for controlling the current through the path. In one particular implementation, the extended portion extends from a base region of the thyristor and is outside of a current path through the base region and between an adjacent base region and an adjacent emitter region. A gate is formed capacitively coupled to the base region via the extended portion. In this manner, the control of the thyristor with the gate exhibits increased capacitive coupling, as compared to the control without the extended portion.Type: GrantFiled: December 17, 2001Date of Patent: June 24, 2003Assignee: T-RAM, Inc.Inventors: Hyun-Jin Cho, Andrew Horch, Scott Robins, Farid Nemati