The present technology relates to an electronic device. A memory device configured to perform a sensing operation based on a charge degree of a sensing node includes a memory cell array including a plurality of memory cells, a peripheral circuit including a page buffer connected to a selected memory cell among the plurality of memory cells through a bit line, and configured to perform a sensing operation on the selected memory cell, and control logic configured to control the peripheral circuit to precharge a source line among lines connected to the memory cell array and perform the sensing operation based on a degree at which a sensing node in the page buffer is charged, during the sensing operation.

The present disclosure includes systems, apparatuses, and methods related to generating a random data value. For example, a first read operation may be performed on a memory cell programmed to a first state, wherein the first read operation is performed using a first read voltage that is within a predetermined threshold voltage distribution corresponding to the first state. A programming signal may be applied to the memory cell responsive to the first read operation resulting in a snapback event, wherein the programming signal is configured to place the memory cell in a second state. A second read operation may be performed to determine whether the memory cell is in the first state or the second state using a second read voltage that is between the predetermined threshold voltage distribution corresponding to the first state and a second threshold voltage distribution corresponding to the second state.

A method includes determining, via status polling at a first interval, an indicator of an almost ready status of a set of memory cells of a memory device, based on the indicator of the almost ready status, determining the set of memory cells of the memory device is almost ready to complete execution of an operation on the set of memory cells of the memory device, and responsive to determining the set of memory cells of the memory device is almost ready to complete execution of the operation, performing status polling at a second interval.

A memory apparatus and a control method are provided. The memory apparatus includes a non-volatile memory array having plural memory groups, and the control method is applied to the non-volatile memory array. The memory groups jointly share a first well, and the control method is applied to the non-volatile memory array. A first memory group among the memory groups is erased according to a first erase command after the memory apparatus is power-on, and a first amount of the memory groups are recovered in a first erase-recover procedure after the first memory group is erased. A second memory group among the memory groups is erased according to a second erase command after the first erase-recover procedure, and a second amount of the memory groups are recovered in a second erase-recover procedure after the second memory group is erased. The first amount is greater than the second amount.

A memory device includes a memory array of memory cells. A page buffer is to apply, to a bit line, a first voltage or a second voltage that is higher than the first voltage during a program verify operation. Control logic operatively coupled with the page buffer is to perform operations including: causing a plurality of memory cells to be programmed with a first program pulse; measuring a threshold voltage for the memory cells; forming a threshold voltage distribution from the measured threshold voltages; classifying, based on the threshold voltage distribution, a first subset of the memory cells as having a faster quick charge loss than that of a second subset of the memory cells; and causing, in response to the classifying, the page buffer to apply the second voltage to the bit line during a program verify operation performed on any of the first subset of memory cells.

Retention characteristics after rewriting can be improved.

A flash memory includes a plurality of sectors each of which includes a plurality of memory cells. In a case in which a fluctuation range of a threshold voltage in a memory cell on which a write operation is performed is greater than a fluctuation range of a threshold voltage in a memory cell on which an erase operation is performed, after one sector is used, when another sector is used, a write operation is performed on all the memory cells of the one sector.

A memory device with adaptive sense time tables is disclosed. In order to maintain a desired (initial or preset) threshold voltage distribution, the sense time is adjusted as the program-erase cycle count increases. The program-erase cycle process tends to wear down memory cells, causing the QPW window to expand and the threshold voltage to widen. However, by adjusting (i.e., reducing) the sense time for increased program-erase cycles, the QPW window and the threshold voltage can be at least substantially maintained. Additionally, systems and methods for adjusting sense time based on die-to-die variations are also disclosed.

A memory apparatus and method of operation are provided. The memory apparatus includes memory cells connected to one of a plurality of word lines including an edge word line and a plurality of other data word lines. The memory cells are disposed in memory holes organized in rows grouped in a plurality of strings. The rows include full circle rows and semi-circle rows. A control means is configured to program the memory cells connected to the edge word line and in the semi-circle rows of a first one and a second one of the plurality of strings to a predetermined one of a plurality of data states in a first program operation. The control means then selects both the first one and the second one of the plurality of strings together and programs the memory cells of the full circle rows together in a second program operation.

A memory cell of a memory cell array includes a well region, a first doped region, a second doped region, a first gate structure, and a storage structure. The first doped region and the second doped region are formed in the well region. The first gate structure is formed over a first surface between the first doped region and the second doped region. The storage structure is formed over a second surface and the second surface is between the first surface and the second doped region. The storage structure is covered on a portion of the first gate structure, the second surface and an isolation structure.

Some embodiments include apparatus and methods using access lines, first memory cells coupled to an access line of the access lines, and a control unit including circuitry. The control unit is configured to apply a first voltage to the access line; check first threshold voltages of the first memory cells after applying the first voltage; obtain offset information based on a determination that at least one of the first threshold voltages is greater than a selected voltage; generate a second voltage, the second voltage being a function of the first voltage and the offset information; and apply the second voltage to one of the access lines during an operation of storing information in second memory cells.