Patent application number | Description | Published |
20080224774 | Method and Apparatus for Systematic and Random Variation and Mismatch Compensation for Multilevel Flash Memory Operation - Method and means for random or systematic mismatch compensation for a memory sensing system are disclosed. A sense amplifier includes a bulk voltage source to set the bulk of the sensing transistor to be a voltage different than the voltage driving the sensing transistor. For an NMOS sensing transistor, a triple well is used with the variable bulk voltage. Differential sense amplifiers with various offset compensation are included. Intentional offset creation for useful purpose is also included. | 09-18-2008 |
20080239834 | SENSE AMPLIFIER FOR LOW VOLTAGE HIGH SPEED SENSING - A memory system includes a sense amplifier for detecting content of data memory cells by comparison with a voltage stored in a reference cell. The sense amplifier may comprise a comparator, first and second load circuits, and a low impedance circuit. A first input of the comparator is coupled to the low impedance circuit and a reference voltage node. A second input of the comparator is coupled to a data voltage node. The first load circuit loads a reference cell coupled to the reference voltage node. The second load circuit loads a data cell coupled to the data voltage node. | 10-02-2008 |
20080290931 | Charge pump systems and methods - Digital multilevel memory systems and methods include a charge pump for generating regulated high voltages for various memory operations. The charge pump may include a plurality of pump stages. Aspects of exemplary systems may include charge pumps that performs orderly charging and discharging at low voltage operation conditions. Additional aspects may include features that enable state by state pumping, for example, circuitry that avoids cascaded short circuits among pump stages. Each pump stage may also include circuitry that discharges its nodes, such as via self-discharge through associated pump interconnection(s). Further aspects may also include features that: assist power-up in the various pump stages, double voltage, shift high voltage levels, provide anti-parallel circuit configurations, and/or enable buffering or precharging features, such as self-buffering and self-precharging circuitry. | 11-27-2008 |
20090052248 | FLASH MEMORY ARRAY SYSTEM INCLUDING A TOP GATE MEMORY CELL - A memory system includes memory cells arranged in sectors. A decoder corresponding to a sector disables memory cells having a defective top gate. The decoder may include a low voltage or high voltage latch for the disabling. A top gate handling algorithm is included. The memory system may include dynamic top gate coupling. A programming algorithm and waveforms with top gate handling is included. | 02-26-2009 |
20090067239 | FLASH MEMORY ARRAY SYSTEM INCLUDING A TOP GATE MEMORY CELL - A memory system includes memory cells arranged in sectors. A decoder corresponding to a sector disables memory cells having a defective top gate. The decoder may include a low voltage or high voltage latch for the disabling. A top gate handling algorithm is included. The memory system may include dynamic top gate coupling. A programming algorithm and waveforms with top gate handling is included. | 03-12-2009 |
20090323415 | FLASH MEMORY ARRAY SYSTEM INCLUDING A TOP GATE MEMORY CELL - A memory system includes memory cells arranged in sectors. A decoder corresponding to a sector disables memory cells having a defective top gate. The decoder may include a low voltage or high voltage latch for the disabling. A top gate handling algorithm is included. The memory system may include dynamic top gate coupling. A programming algorithm and waveforms with top gate handling is included. | 12-31-2009 |
20100001765 | SENSE AMPLIFIER FOR LOW VOLTAGE HIGH SPEED SENSING - A memory system includes a sense amplifier for detecting content of data memory cells by comparison with a voltage stored in a reference cell. The sense amplifier may comprise a comparator, first and second load circuits, and a low impedance circuit. A first input of the comparator is coupled to the low impedance circuit and a reference voltage node. A second input of the comparator is coupled to a data voltage node. The first load circuit loads a reference cell coupled to the reference voltage node. The second load circuit loads a data cell coupled to the data voltage node. | 01-07-2010 |
20110018634 | Method and Apparatus for Systematic and Random Variation and Mismatch Compensation for Multilevel Flash Memory Operation - Method and means for random or systematic mismatch compensation for a memory sensing system are disclosed. A sense amplifier includes a bulk voltage source to set the bulk of the sensing transistor to be a voltage different than the voltage driving the sensing transistor. For an NMOS sensing transistor, a triple well is used with the variable bulk voltage. Differential sense amplifiers with various offset compensation are included. Intentional offset creation for useful purpose is also included. | 01-27-2011 |
20110121863 | SENSE AMPLIFIER FOR LOW VOLTAGE HIGH SPEED SENSING - A memory system includes a sense amplifier for detecting content of data memory cells by comparison with a voltage stored in a reference cell. The sense amplifier may comprise a comparator, first and second load circuits, and a low impedance circuit. A first input of the comparator is coupled to the low impedance circuit and a reference voltage node. A second input of the comparator is coupled to a data voltage node. The first load circuit loads a reference cell coupled to the reference voltage node. The second load circuit loads a data cell coupled to the data voltage node. | 05-26-2011 |
20110122693 | FLASH MEMORY ARRAY SYSTEM INCLUDING A TOP GATE MEMORY CELL - A memory system includes memory cells arranged in sectors. A decoder corresponding to a sector disables memory cells having a defective top gate. The decoder may include a low voltage or high voltage latch for the disabling. A top gate handling algorithm is included. The memory system may include dynamic top gate coupling. A programming algorithm and waveforms with top gate handling is included. | 05-26-2011 |
20110169558 | CHARGE PUMP SYSTEMS AND METHODS - Digital multilevel memory systems and methods include a charge pump for generating regulated high voltages for various memory operations. The charge pump may include a plurality of pump stages. Aspects of exemplary systems may include charge pumps that performs orderly charging and discharging at low voltage operation conditions. Additional aspects may include features that enable state by state pumping, for example, circuitry that avoids cascaded short circuits among pump stages. Each pump stage may also include circuitry that discharges its nodes, such as via self-discharge through associated pump interconnection(s). Further aspects may also include features that: assist power-up in the various pump stages, double voltage, shift high voltage levels, provide anti-parallel circuit configurations, and/or enable buffering or precharging features, such as self-buffering and self-precharging circuitry. | 07-14-2011 |
20120044774 | SENSE AMPLIFIER FOR LOW VOLTAGE HIGH SPEED SENSING - A memory system includes a sense amplifier for detecting content of data memory cells by comparison with a voltage stored in a reference cell. The sense amplifier may comprise a comparator, first and second load circuits, and a low impedance circuit. A first input of the comparator is coupled to the low impedance circuit and a reference voltage node. A second input of the comparator is coupled to a data voltage node. The first load circuit loads a reference cell coupled to the reference voltage node. The second load circuit loads a data cell coupled to the data voltage node. | 02-23-2012 |
20130106391 | Low Voltage, Low Power Bandgap Circuit | 05-02-2013 |
20130107631 | Method Of Programming A Split Gate Non-volatile Floating Gate Memory Cell Having A Separate Erase Gate | 05-02-2013 |
20130107632 | Mixed Voltage Non-volatile Memory Integrated Circuit With Power Saving | 05-02-2013 |
20130148428 | Non-volatile Memory Device And A Method Of Programming Such Device - A non-volatile memory device has a charge pump for providing a programming current and an array of non-volatile memory cells. Each memory cell of the array is programmed by the programming current from the charge pump. The array of non-volatile memory cells is partitioned into a plurality of units, with each unit comprising a plurality of memory cells. An indicator memory cell is associated with each unit of non-volatile memory cells. A programming circuit programs the memory cells of each unit using the programming current, when fifty percent or less of the memory cells of each unit is to be programmed, and programs the inverse of the memory cells of each unit and the indicator memory cell associated with each unit, using the programming current, when more than fifty percent of the memory cells of each unit is to be programmed. | 06-13-2013 |
20130187707 | Charge Pump Systems and Methods - Digital multilevel memory systems and methods include a charge pump for generating regulated high voltages for various memory operations. The charge pump may include a plurality of pump stages. Aspects of exemplary systems may include charge pumps that performs orderly charging and discharging at low voltage operation conditions. Additional aspects may include features that enable state by state pumping, for example, circuitry that avoids cascaded short circuits among pump stages. Each pump stage may also include circuitry that discharges its nodes, such as via self-discharge through associated pump interconnection(s). Further aspects may also include features that: assist power-up in the various pump stages, double voltage, shift high voltage levels, provide anti-parallel circuit configurations, and/or enable buffering or precharging features, such as self-buffering and self-precharging circuitry. | 07-25-2013 |
20130242672 | Non-volatile Memory Device And A Method Of Operating Same - An array of non-volatile memory cells in a semiconductor substrate of a first conductivity type. Each memory cell comprises first and second regions of a second conductivity type on a surface of the substrate, with a channel region therebetween. A word line overlies one portion of the channel region, is adjacent to the first region, and has little or no overlap with the first region. A floating gate overlies another portion of the channel region, and is adjacent to the first portion and the second region. A coupling gate overlies the floating gate. An erase gate overlies the second region. A bit line is connected to the first region. A negative charge pump circuit generates a negative voltage. A control circuit generates a plurality of control signals in response to receiving a command signal, and applies the negative voltage to the word line of unselected memory cells. | 09-19-2013 |
20140104965 | Non-volatile Memory Array And Method Of Using Same For Fractional Word Programming - A non-volatile memory device that includes N planes of non-volatile memory cells (where N is an integer greater than 1). Each plane of non-volatile memory cells includes a plurality of memory cells configured in rows and columns. Each of the N planes includes gate lines that extend across the rows of the memory cells therein but do not extend to others of the N planes of non-volatile memory cells. A controller is configured to divide each of a plurality of words of data into N fractional-words, and program each of the N fractional-words of each word of data into a different one of the N planes of non-volatile memory cells. The controller uses a programming current and a program time period for the programming, and can be configured to vary the programming current by a factor and inversely vary the program time period by the factor. | 04-17-2014 |
20140140138 | Three-Dimensional Flash Memory System - A three-dimensional flash memory system is disclosed. | 05-22-2014 |
20140269049 | Hybrid Chargepump And Regulation Means And Method For Flash Memory Device - A hybrid charge pump and control circuit for use in a memory device is disclosed. | 09-18-2014 |
20140269061 | High Speed Sensing For Advanced Nanometer Flash Memory Device - Improved sensing circuits and improved bit line layouts for advanced nanometer flash memory devices are disclosed. | 09-18-2014 |
20140269098 | DYNAMIC PROGRAMMING OF ADVANCED NANOMETER FLASH MEMORY - An improved method and apparatus for programming advanced nanometer flash memory cells is disclosed. | 09-18-2014 |
20140281611 | POWER MANAGEMENT FOR A MEMORY DEVICE - An improved method and apparatus for performing power management in a memory device is disclosed. | 09-18-2014 |
20140282348 | TRANSISTOR DESIGN FOR USE IN ADVANCED NANOMETER FLASH MEMORY DEVICES - Improved PMOS and NMOS transistor designs for sensing circuitry use in advanced nanometer flash memory devices are disclosed. | 09-18-2014 |