| Patent application number | Description | Published |
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| 20080205140 | Bit line structure for a multilevel, dual-sided nonvolatile memory cell array - A nonvolatile memory array includes a plurality of dual-sided charge-trapping nonvolatile memory cells arranged in rows and columns. The dual-sided charge-trapping nonvolatile memory cells on each column form at least one grouping that is arranged in a NAND series string of dual-sided charge-trapping nonvolatile memory cells. Each NAND series string has a top select transistor and a bottom select transistor. A plurality of bit lines is connected in a cross connective columnar bit line structure such that each column of the dual-sided charge-trapping nonvolatile memory cells is connected to an associated pair of bit lines. The first of the associated pair of bit lines is further connected to a first adjacent column of dual-sided charge-trapping nonvolatile memory cells and the second of the associated pair of bit lines is further associated with a second adjacent column of the dual-sided charge-trapping nonvolatile memory cells. | 08-28-2008 |
| 20080205141 | Circuit and method for multiple-level programming, reading, and erasing dual-sided nonvolatile memory cell - A control apparatus programs, reads, and erases trapped charges representing multiple data bits from a charge trapping region of a NMOS dual-sided charge-trapping nonvolatile memory cell includes a programming circuit, an erasing circuit, and a reading circuit. The programming circuit provides a negative medium large program voltage to cell's gate along with positive drain and source voltage to inject hot carriers of holes to two charge trapping regions, one of a plurality of threshold adjustment voltages representing a portion of the multiple data bits to the drain and source regions to set the hot carrier charge levels to the two charge trapping regions. The erasing circuit provides a very large positive erase voltage to tunnel the electrons from cell's channel to whole trapping layer including the two charge trapping regions. The reading circuit generates one of a plurality of threshold detection voltages to detect one of a plurality of programmed threshold voltages representative of multiple data bits, generates a drain voltage level to activate the charge-trapping nonvolatile memory cell. | 08-28-2008 |
| 20080225594 | Bit line gate transistor structure for a multilevel, dual-sided nonvolatile memory cell NAND flash array - A nonvolatile memory structure with pairs of serially connected select transistors connected to the top and optionally to the bottom of NAND series strings of groups of the dual-sided charge-trapping nonvolatile memory cells for controlling connection of the NAND series string to an associated bit line. A first of the serially connected select transistors has an implant to make a threshold voltage of the implanted first serially connected select transistor different from a non-implanted second serially connected select transistor. The pair of serially connected top select transistors is connected to a first of two associated bit lines. Optionally, the NAND nonvolatile memory strings further is connected a pair of serially connected bottom select transistors that is connected to the second associated bit line. | 09-18-2008 |
| 20080247230 | Novel monolithic, combo nonvolatile memory allowing byte, page and block write with no disturb and divided-well in the cell array using a unified cell structure and technology with a new scheme of decoder and layout - A novel FLASH-based EEPROM cell, decoder, and layout scheme are disclosed to eliminate the area-consuming divided triple-well in cell array and allows byte-erase and byte-program for high P/E cycles. Furthermore, the process-compatible FLASH cell for EEPROM part can be integrated with FLASH and ROM parts so that a superior combo, monolithic, nonvolatile memory is achieved. Unlike all previous arts, the novel combo nonvolatile memory of the present invention of ROM, EEPROM and FLASH or combination of any two is made of one unified, fully compatible, highly-scalable BN+ cell and unified process. In addition, its cell operation schemes have zero array overhead and zero disturbance during P/E operations. The novel combo nonvolatile memory is designed to meet the need in those markets requiring flexible write size in units of bytes, pages and blocks at a lower cost. | 10-09-2008 |
| 20080253186 | Bit line structure for a multilevel, dual-sided nonvolatile memory cell array - A nonvolatile memory array includes a plurality of dual-sided charge-trapping dual-sided charge-trapping nonvolatile memory cells arranged in rows and columns. The dual-sided charge-trapping dual-sided charge-trapping nonvolatile memory cells on each column form at least one grouping that is arranged in a NAND series string of dual-sided charge-trapping dual-sided charge-trapping nonvolatile memory cells. Each NAND series string has a top select transistor and a bottom select transistor. Pairs of braided bit lines are connected in a braided columnar bit line structure such that each column of the dual-sided charge-trapping dual-sided charge-trapping nonvolatile memory cells is connected to an associated pair of braided bit lines. | 10-16-2008 |
| 20090190402 | Integrated SRAM and FLOTOX EEPROM memory device - A nonvolatile SRAM circuit has an SRAM cell and one or two FLOTOX EEPROM cells connected to the data storage terminals of the SRAM cell. In programming to a first data level, the threshold voltage of a FLOTOX EEPROM transistor is brought to a programmed voltage level greater than a read voltage level and erasing to a second data level, the threshold voltage of the FLOTOX EEPROM transistor is brought to an erased voltage level less than the read voltage level. The nonvolatile SRAM array provides for restoring data to an SRAM cell from a FLOTOX EEPROM memory cell(s) at a power initiation and storing data to the FLOTOX EEPROM memory cell(s) to the SRAM cell at power termination. A power detection circuit for providing signals indicating power initiation and power termination to instigate restoration and storing of data between an SRAM cell and a FLOTOX EEPROM cell(s). | 07-30-2009 |
| 20090201742 | Single-polycrystalline silicon electrically erasable and programmable nonvolatile memory device - A single polycrystalline silicon floating gate nonvolatile memory cell has a MOS capacitor and a storage MOS transistor fabricated with dimensions that allow fabrication using current low voltage logic integrated circuit process. The MOS capacitor has a first plate connected to a gate of the storage MOS transistor to form a floating gate node. The physical size of the MOS capacitor is relatively large (approximately 10 time greater) when compared to a physical size of the storage MOS transistor to establish a large coupling ratio (approximately 90% between the second plate of the MOS capacitor and the floating gate node. When a voltage is applied to the second plate of the MOS capacitor and a voltage applied to the source region or drain region of the MOS transistor establishes a voltage field within the gate oxide of the MOS transistor such that Fowler-Nordheim edge tunnel is initiated. | 08-13-2009 |
| 20090279360 | NAND based NMOS NOR flash memory cell, a NAND based NMOS nor flash memory array, and a method of forming a NAND based NMOS NOR flash memory array - A NOR flash nonvolatile memory device provides the memory cell size and a low current program process of a NAND flash nonvolatile memory device and the fast, asynchronous random access of a NOR flash nonvolatile memory device. The NOR flash nonvolatile memory device has an array of NOR flash nonvolatile memory circuits. Each NOR flash nonvolatile memory circuit includes a plurality of charge retaining transistors serially connected in a NAND string. A drain of a topmost charge retaining transistor is connected to a bit line associated with the serially connected charge retaining transistors and a source of a bottommost charge retaining transistor is connected to a source line associated with the charge retaining transistors. Each control gate of the charge retaining transistors on each row is commonly connected to a word line. The charge retaining transistors are programmed and erased with a Fowler-Nordheim tunneling process. | 11-12-2009 |
| 20090310405 | Row-decoder and select gate decoder structures suitable for flashed-based EEPROM operating below +/-10v BVDS - A nonvolatile memory device includes an array of EEPROM configured nonvolatile memory cells each having a floating gate memory transistor for storing a digital datum and a floating gate select transistor for activating the floating gate memory transistor for reading, programming, and erasing. The nonvolatile memory device has a row decoder to transfer the operational biasing voltage levels to word lines connected to the floating gate memory transistors for reading, programming, verifying, and erasing the selected nonvolatile memory cells. The nonvolatile memory device has a select gate decoder circuit transfers select gate control biasing voltages to the select gate control lines connected to the control gate of the floating gate select transistor for reading, programming, verifying, and erasing the floating gate memory transistor of the selected nonvolatile memory cells. The operational biasing voltage levels are generated to minimize operational disturbances and preventing drain to source breakdown in peripheral devices. | 12-17-2009 |
| 20090310411 | Row-decoder and source-decoder structures suitable for erase in unit of page, sector and chip of a NOR-type flash operating below +/- 10V BVDS - An apparatus and method for operating an array of NOR connected flash nonvolatile memory cells erases the array in increments of a page, block, sector, or the entire array while minimizing operational disturbances and providing bias operating conditions to prevent gate to source breakdown in peripheral devices. The apparatus has a row decoder circuit and a source decoder circuit for selecting the nonvolatile memory cells for providing biasing conditions for reading, programming, verifying, and erasing the selected nonvolatile memory cells while minimizing operational disturbances and preventing gate to source breakdown in peripheral devices. | 12-17-2009 |
| 20090310414 | NAND string based NAND/NOR flash memory cell, array, and memory device having parallel bit lines and source lines, having a programmable select gating transistor, and circuits and methods for operating same - A nonvolatile memory device includes a nonvolatile memory array including a plurality of charge retaining transistors arranged in rows and columns. The device has a plurality source lines formed in parallel with the bit lines associated with each column. Row decode/driver circuits are connected to blocks of the charge retaining transistors for controlling the application of the necessary read, program, and erase signals. Erase count registers, each of the erase count registers associated with one block of the array of the charge retaining transistors for storing an erase count for the associated block for determining whether a refresh operation is to be executed. Groupings on each column of the array of charge retaining transistors are connected as NAND series strings where each NAND string has a select gating charge retaining transistor connected to the top charge retaining transistor for connecting the NAND series string to the bit lines. | 12-17-2009 |
| 20090316487 | Apparatus and method for inhibiting excess leakage current in unselected nonvolatile memory cells in an array - An apparatus and method for operating an array of NOR connected flash nonvolatile memory cells erases the array in increments of a page, block, sector, or the entire array while minimizing sub-threshold leakage current through unselected nonvolatile memory cells. The apparatus has a row decoder circuit and a source decoder circuit for selecting the nonvolatile memory cells for providing biasing conditions for reading, programming, verifying, and erasing the selected nonvolatile memory cells while minimizing sub-threshold leakage current through unselected nonvolatile memory cells. | 12-24-2009 |
| 20100124118 | Bit line gate transistor structure for a multilevel, dual-sided nonvolatile memory cell NAND flash array - A nonvolatile memory structure with pairs of serially connected threshold voltage adjustable select transistors connected to the top and optionally to the bottom of NAND series strings of groups of the dual-sided charge-trapping nonvolatile memory cells for controlling connection of the NAND series string to an associated bit line. A first of the threshold voltage adjustable select transistors has its threshold voltage level adjusted to a first threshold voltage level and a second of the threshold voltage adjustable select transistors adjusted to a second threshold voltage level. The pair of serially connected threshold voltage adjustable select transistors is connected to a first of two associated bit lines. The NAND nonvolatile memory strings further is connected to a pair of serially connected threshold voltage adjustable bottom select transistors that is connected to the second associated bit line. | 05-20-2010 |
| 20100329011 | MEMORY SYSTEM HAVING NAND-BASED NOR AND NAND FLASHES AND SRAM INTEGRATED IN ONE CHIP FOR HYBRID DATA, CODE AND CACHE STORAGE - A memory system includes a NAND flash memory, a NOR flash memory and a SRAM manufactured on a single chip. Both NAND and NOR memories are manufactured by the same NAND manufacturing process and NAND cells. The three memories share the same address bus, data bus, and pins of the single chip. The address bus is bi-directional for receiving codes, data and addresses and transmitting output. The data bus is also bi-directional for receiving and transmitting data. One external chip enable pin and one external output enable pin are shared by the three memories to reduce the number of pins required for the single chip. Both NAND and NOR memories have dual read page buffers and dual write page buffers for Read-While-Load and Write-While-Program operations to accelerate the read and write operations respectively. A memory-mapped method is used to select different memories, status registers and dual read or write page buffers. | 12-30-2010 |
| 20110013443 | Novel high speed two transistor/two bit NOR read only memory - A mask programmable NOR ROM circuit includes serially connected ROM transistors. A drain of a topmost ROM transistor is connected to a bit line and a source of a bottommost ROM transistor is connected to a source line. A source of one ROM transistor is solely connected with a drain of an immediately adjacent ROM transistor. The ROM transistors are programmed by placing a resist mask having openings for selectively modifying a first threshold voltage level of chosen ROM transistors by implanting a threshold voltage modifying impurity. A selected ROM transistor is read by connecting the source line to a sense amplifier circuit and setting the bit line to a read biasing voltage level. The gate of the selected ROM transistor is set to a moderately high read voltage level. The gates of all unselected ROM transistor is set to a very high read voltage level. | 01-20-2011 |
| 20110051519 | Novel NAND-based hybrid NVM design that integrates NAND and NOR in 1-die with serial interface - A nonvolatile memory device includes multiple independent nonvolatile memory arrays that concurrently for parallel reading and writing the nonvolatile memory arrays. A serial interface communicates commands, address, device status, and data between a master device and nonvolatile memory arrays for concurrently reading and writing of the nonvolatile memory arrays and sub-arrays. Data is transferred on the serial interface at the rising edge and the falling edge of the synchronizing clock. The serial interface transmits a command code and an address code from a master device and transfers a data code between the master device and the nonvolatile memory device, wherein the data code has a length that is determined by the command code and a location determined by the address code. An enable signal defines a beginning and termination of a reading or writing operation. Reading one nonvolatile memory array may be interrupted for another operation and then resumed. | 03-03-2011 |
| 20110051524 | Method and apparatus for operation of a NAND-like dual charge retaining transistor NOR flash memory device - A method and apparatus for operation for the NAND-like dual charge retaining transistor NOR flash memory cells begins by erasing, verifying over-erasing the threshold voltage level of the erased charge retaining transistors to an erased threshold voltage level. Then method progresses by programming one of two charge retaining transistors of the NAND-like dual charge retaining transistor NOR flash memory cells to a first programmed threshold voltage level, and programming the other of the two charge retaining transistors of the NAND-like dual charge retaining transistor NOR flash memory cells to the first programmed threshold voltage level or to a second programmed threshold voltage level. Combinations of the erased threshold voltage level and the first and second programmed threshold voltage levels determine an internal data state of the NAND-like dual charge retaining transistor NOR flash memory cells which are then decoded to ascertain the external data logical state. | 03-03-2011 |
| 20110072200 | Novel NAND-based hybrid NVM design that integrates NAND and NOR in 1-die with parallel interface - A nonvolatile memory device includes multiple independent nonvolatile memory arrays that concurrently for parallel reading and writing the nonvolatile memory arrays. A parallel interface communicates commands, address, device status, and data between a master device and nonvolatile memory arrays for concurrently reading and writing of the nonvolatile memory arrays and sub-arrays. Data is transferred on the parallel interface at the rising edge and the falling edge of the synchronizing clock. The parallel interface transmits a command code and an address code from a master device and transfers a data code between the master device and the nonvolatile memory device, wherein the data code has a length that is determined by the command code and a location determined by the address code. Reading one nonvolatile memory array may be interrupted for reading another. One reading operation has two sub-addresses with one transferred prior to a command. | 03-24-2011 |
| 20110072201 | Novel NAND-based hybrid NVM design that integrates NAND and NOR in 1-die with serial interface - A nonvolatile memory device includes multiple independent nonvolatile memory arrays that concurrently for parallel reading and writing the nonvolatile memory arrays. A serial interface communicates commands, address, device status, and data between a master device and nonvolatile memory arrays for concurrently reading and writing of the nonvolatile memory arrays and sub-arrays. Data is transferred on the serial interface at the rising edge and the falling edge of the synchronizing clock. The serial interface transmits a command code and an address code from a master device and transfers a data code between the master device and the nonvolatile memory device, wherein the data code has a length that is determined by the command code and a location determined by the address code. Reading one nonvolatile memory array may be interrupted for reading another. One reading operation has two sub-addresses with one transferred prior to a command. | 03-24-2011 |
| 20110096609 | Novel punch-through free program scheme for nt-string flash design - A nonvolatile memory array has nonvolatile memory cells arranged in rows and columns where each column has a bit line and source line associated with and in parallel with the nonvolatile memory cells. In programming the nonvolatile memory cell, approximately equal program voltage levels are applied to a drain and a source of a selected charge retaining transistor such that the difference in the voltage between the drain and the source of the selected charge retaining transistor is less than a drain to source breakdown voltage of the selected charge retaining transistor to prevent drain-to-source punch through. In programming or erasing the nonvolatile memory cell a control gate and a bulk program voltage level is applied to a control gate and bulk such that the magnitude of the control gate and bulk program voltage levels is less than a breakdown voltage level of peripheral circuitry. | 04-28-2011 |
| 20110157974 | Novel cell array for highly-scalable , byte-alterable, two-transistor FLOTOX EEPROM non-volatile memory - Two-transistor FLOTOX EEPROM cells are collected to form an alterable unit such as a byte. Each of the two-transistor FLOTOX EEPROM cells has a bit line connected to a drain of a select transistor of each of the two-transistor FLOTOX EEPROM cells and a source line placed in parallel with the bit line and connected to a source of a floating gate transistor of each of the two-transistor FLOTOX EEPROM cells. In a program operation, the bit lines are connected to a very large programming voltage level and the source lines are connected to a punch through inhibit voltage level. The punch through inhibit voltage level is approximately one half the very large programming voltage level. The lower drain-to-source voltage level permits the select transistor and the floating gate transistor to have smaller channel lengths and therefore a lower drain-to-source breakdown voltage. | 06-30-2011 |
| 20110157982 | Novel High Speed High Density NAND-Based 2T-NOR Flash Memory Design - A two transistor NOR flash memory cell has symmetrical source and drain structure manufactured by a NAND-based manufacturing process. The flash cell comprises a storage transistor made of a double-poly NMOS floating gate transistor and an access transistor made of a double-poly NMOS floating gate transistor, a poly1 NMOS transistor with poly1 and poly2 being shorted or a single-poly poly1 or poly2 NMOS transistor. The flash cell is programmed and erased by using a Fowler-Nordheim channel tunneling scheme. A NAND-based flash memory device includes an array of the flash cells arranged with parallel bit lines and source lines that are perpendicular to word lines. Write-row-decoder and read-row-decoder are designed for the flash memory device to provide appropriate voltages for the flash memory array in pre-program with verify, erase with verify, program and read operations in the unit of page, block, sector or chip. | 06-30-2011 |
