Technology is disclosed for applying a positive temperature coefficient (Tco) voltage to a control terminal of a dummy select transistor. The dummy select transistor resides on a NAND string having non-volatile memory cells and a regular select transistor. The dummy select transistor is typically ON (or conductive) during memory operations such as selected string program, read, and verify. In an aspect, the positive Tco voltage is applied to the control terminal of a dummy select transistor during a program operation. Applying the positive Tco voltage during program operations reduces or eliminates program disturb to the dummy select transistor. In some aspects, the dummy select transistor is used to generate a gate induced drain leakage (GIDL) current during an erase operation. In some aspects, the dummy select transistor is a depletion mode transistor.

An apparatus, system, and method for controlling data transfer to an output port of a serial data link interface in a semiconductor memory is disclosed. In one example, a flash memory device may have multiple serial data links, multiple memory banks and control input ports that enable the memory device to transfer the serial data to a serial data output port of the memory device. In another example, a flash memory device may have a single serial data link, a single memory bank, a serial data input port, a control input port for receiving output enable signals. The flash memory devices may be cascaded in a daisy-chain configuration using echo signal lines to serially communicate between memory devices.

The present technology relates to a memory system and a method of operating the memory system. The memory system includes a memory device including a plurality of semiconductor memories, and a controller for controlling the memory device to perform a test program operation and a threshold voltage distribution monitoring operation on each of the plurality of semiconductor memories during an operation. The controller sets operation performance parameters of each of the semiconductor memories based on monitoring information obtained as a result of the threshold voltage distribution monitoring operation.

A memory apparatus and method of operation is provided. The apparatus includes a block having memory cells connected to word lines and arranged in strings and is divided into a first sub-block and a second sub-block each configured to be erased as a whole in an erase operation. The apparatus has a temperature measuring circuit configured to detect an ambient temperature of the apparatus. A control circuit is configured to determine a word line inhibit voltage based on the ambient temperature. The control circuit applies an erase voltage to each of the strings while simultaneously applying a word line erase voltage to the word lines associated with a selected one of the first and second sub-blocks to encourage erasing and the word line inhibit voltage to the word lines associated with an unselected one of the first and second sub-blocks to discourage erasing in the erase operation.

A write cycle recording device includes a storage device and a controller. The storage device is corresponding to a memory block of a non-volatile memory. The storage device has a plurality of bits for recording a plurality of recorded writing loop counts corresponding to a plurality of writing operations of the memory block. The controller is configured to: perform a writing operation on the memory block; record a performed writing loop count of the writing operation; and, update a recorded writing loop count corresponding to the writing operation in the storage device according to the performed writing loop count.

A non-volatile memory device includes a plurality of word lines stacked above a substrate in a vertical direction; erase control lines that are spaced apart from each other in a first direction and extend in a second direction; a pass transistor circuit including a first pass transistor connected to a first group of erase control lines and a second pass transistor connected to a second group of erase control lines; and a memory cell array including a plurality of blocks. The first group of erase control lines are relatively close to a word line cut region and the second group of erase control lines are relatively far from the word line cut region. Each of the plurality of blocks includes a plurality of channel structures connected to the word lines and the erase control lines and each channel structure extends in the vertical direction.

A memory device includes a memory array including a plurality of wordline groups, each wordline group of the plurality of wordline groups including a set of even wordlines and a set of odd wordlines, and control logic, operatively coupled with the memory array, to perform operations including identifying a set of failing wordline groups from the plurality of wordline groups, the set of failing wordline groups including at least one failing wordline group determined to have failed a first erase verify of an erase verify process, and causing a second erase verify of the erase verify process to be performed sequentially with respect to each failing wordline group of the set of failing wordline groups.

The disclosure provides a semiconductor device and an erasing method that may control a number of times an erase pulse is applied. The erasing method of a flash memory of the disclosure includes the following. Multiple sacrificial memory cells in a block are programmed with different write levels first. When a selected block is erased in response to an erase command, a monitor erase pulse (R1) is applied to a well, and then the sacrificial memory cells are verified (S_EV). When the verification fails, a voltage of the monitor erase pulse is increased and then a monitor erase pulse (R2) is applied until the verification of the sacrificial memory cells passes. When the verification is passed, a normal erase pulse (Q1) is applied to the well based on a voltage of the monitor erase pulse (R2) to erase the selected block.

Apparatuses and techniques are described for programming a multi-tier block in which sub-blocks are arranged in respective tiers. When a program operation involves the source-side sub-block, the NAND strings are pre-charged from the source line. When a program operation involves the drain-side sub-block, the NAND strings are pre-charged from the bit line. When a program operation involves an interior sub-block, the NAND strings can be pre-charged from the bit line if all sub-blocks on the drain side of the interior sub-block are erased, or from the source line if all sub-blocks on the source side of the interior sub-block are erased. A table can be provided which identifies free blocks, free sub-blocks and a corresponding program order. If such a table is not available, the sub-blocks can be read to determine whether they are programmed.

According to one embodiment, a nonvolatile semiconductor memory device includes a memory cell array and a control unit. The memory cell array includes a plurality of memory cells arranged in a matrix. The control unit erases data of the memory cells. The control unit interrupts the erase operation of the memory cells and holds an erase condition before the interrupt in accordance with a first command during the erase operation, and resumes the erase operation based on the held erase condition in accordance with a second command.