Patent application number | Description | Published |
20090003087 | Memory device bit line sensing system and method that compensates for bit line resistance variations - Systems, devices and methods are disclosed, such as a system and method of sensing the voltage on bit lines that, when respective memory cells coupled to the bit lines are being read that compensates for variations in the lengths of the bit lines between the memory cells being read and respective bit line sensing circuits. The system and method may determine the length of the bit lines between the memory cells and the sensing circuits based on a memory address, such as a block address. The system and method then uses the determined length to adjust either a precharge voltage applied to the bit lines or the duration during which the bit lines are discharged by respective memory cells before respective voltages on the bit lines are latched. | 01-01-2009 |
20090273980 | NAND ARCHITECTURE MEMORY WITH VOLTAGE SENSING - A NAND architecture non-volatile memory voltage sensing data read/verify process and sense amplifier has been described that senses data in floating gate or floating node field effect transistor memory cells using a voltage sensing data read/verify process. The voltage sensing process utilized a reference NAND string and reference memory cell that is coupled to a reference bit line. A voltage is precharged onto a bit line to be read and an associated reference bit line. The bit line is then coupled to a NAND string and selected memory cell while the reference bit line is coupled to a reference NAND string and selected reference memory cell. The relative voltage level of the bit line and reference bit line are then set by the relative currents flowing through the coupled NAND string and reference NAND string, and the voltage differential read by a coupled voltage sense amplifier. | 11-05-2009 |
20100020621 | MEMORY DEVICE BIT LINE SENSING SYSTEM AND METHOD THAT COMPENSATES FOR BIT LINE RESISTANCE VARIATIONS - Systems, devices and methods are disclosed, such as a system and method of sensing the voltage on bit lines that, when respective memory cells coupled to the bit lines are being read that compensates for variations in the lengths of the bit lines between the memory cells being read and respective bit line sensing circuits. The system and method may determine the length of the bit lines between the memory cells and the sensing circuits based on a memory address, such as a block address. The system and method then uses the determined length to adjust either a precharge voltage applied to the bit lines or the duration during which the bit lines are discharged by respective memory cells before respective voltages on the bit lines are latched. | 01-28-2010 |
20110075492 | MEMORY DEVICE BIT LINE SENSING SYSTEM AND METHOD THAT COMPENSATES FOR BIT LINE RESISTANCE VARIATIONS - Systems, devices and methods are disclosed, such as a system and method of sensing the voltage on bit lines that, when respective memory cells coupled to the bit lines are being read that compensates for variations in the lengths of the bit lines between the memory cells being read and respective bit line sensing circuits. The system and method may determine the length of the bit lines between the memory cells and the sensing circuits based on a memory address, such as a block address. The system and method then uses the determined length to adjust either a precharge voltage applied to the bit lines or the duration during which the bit lines are discharged by respective memory cells before respective voltages on the bit lines are latched. | 03-31-2011 |
20130003458 | NAND ARCHITECTURE MEMORY WITH VOLTAGE SENSING - A NAND architecture non-volatile memory voltage sensing data read/verify process and sense amplifier has been described that senses data in floating gate or floating node field effect transistor memory cells using a voltage sensing data read/verify process. The voltage sensing process utilized a reference NAND string and reference memory cell that is coupled to a reference bit line. A voltage is precharged onto a bit line to be read and an associated reference bit line. The bit line is then coupled to a NAND string and selected memory cell while the reference bit line is coupled to a reference NAND string and selected reference memory cell. The relative voltage level of the bit line and reference bit line are then set by the relative currents flowing through the coupled NAND string and reference NAND string, and the voltage differential read by a coupled voltage sense amplifier. | 01-03-2013 |
Patent application number | Description | Published |
20090231918 | INTERLEAVED MEMORY PROGRAM AND VERIFY METHOD, DEVICE AND SYSTEM - An interleaved memory programming and verification method, device and system includes a memory array including first and second memory banks of memory cells. The memory device further includes a controller configured to concurrently program a first data into the first memory bank and a second data into the second memory bank using iterative programming and verification operations in each of the first and second memory banks with the programming and verification operations in the second memory bank being offset from the programming and verification operations in the first memory bank. | 09-17-2009 |
20090311845 | One Transistor Memory Cell with Bias Gate - One-transistor (1T) capacitor-less DRAM cells each include a MOS transistor having a bias gate layer that separates a floating body region from a base substrate. The MOS transistor functions as a storage device, eliminating the need of the storage capacitor. Logic “1” is written to and stored in the storage device by causing majority carriers (holes in an NMOS transistor) to accumulate and be held in the floating body region next to the bias gate layer, and is erased by removing the majority carriers from where they are held. | 12-17-2009 |
20100322003 | INTERLEAVED MEMORY PROGRAM AND VERIFY METHOD, DEVICE AND SYSTEM - An interleaved memory programming and verification method, device and system includes a memory array including first and second memory banks of memory cells. The memory device further includes a controller configured to concurrently program a first data into the first memory bank and a second data into the second memory bank using iterative programming and verification operations in each of the first and second memory banks with the programming and verification operations in the second memory bank being offset from the programming and verification operations in the first memory bank. | 12-23-2010 |
20110171802 | Methods of Making a Semiconductor Memory Device - One-transistor (1T) capacitor-less DRAM cells each include a MOS transistor having a bias gate layer that separates a floating body region from a base substrate. The MOS transistor functions as a storage device, eliminating the need of the storage capacitor. Logic “1” is written to and stored in the storage device by causing majority carriers (holes in an NMOS transistor) to accumulate and be held in the floating body region next to the bias gate layer, and is erased by removing the majority carriers from where they are held. | 07-14-2011 |
20120002474 | INTERLEAVED MEMORY PROGRAM AND VERIFY METHOD, DEVICE AND SYSTEM - An interleaved memory programming and verification method, device and system includes a memory array including first and second memory banks of memory cells. The memory device further includes a controller configured to concurrently program a first data into the first memory bank and a second data into the second memory bank using iterative programming and verification operations in each of the first and second memory banks with the programming and verification operations in the second memory bank being offset from the programming and verification operations in the first memory bank. | 01-05-2012 |