A method for accessing memory cells in an array of memory cells storing respective data signals, wherein memory cells in the array of memory cells have a first, resp. second, node selectively couplable to respective bitline branches in a first, resp. second, set of bitline branches, wherein the first and the second set of bitline branches provide at least one bitline capacitance configured to store a bias level of charge in response to being charged.

Memory devices might include a capacitor, a first capacitance element, a first transistor, and control logic. The first transistor might be connected between the capacitor and the first capacitance element. The control logic might be connected to a control gate of the first transistor. The control logic might be configured to activate the first transistor to precharge the capacitor and the first capacitance element during a read operation of the memory device. The first capacitance element might be a wire capacitance of a first signal line.

Methods, systems, and devices for activate commands for memory preparation are described. A memory device may receive an activate command for a row of a memory bank in the memory device. The activate command may include an indicator that indicates a type of an access operation associated with the activate command. The memory device may perform, based on the type of the access operation, an operation to prepare the memory device for the access operation. The memory device may then receive an access command for the access operation after performing the operation to prepare the memory device for the access operation.

A device is provided. The device includes multiple transistors, a first sense circuit, and a precharge circuit. The transistors are coupled to a tracking bit line and configured to generate a first tracking signal. The first sense circuit is configured to generate a first sense tracking signal in response to the first tracking signal. The precharge circuit is configured to generate, in response to a rising edge and a falling edge of the first sense tracking signal, a precharge signal for precharging data lines.

Methods, systems, and devices for system and method for reading and writing memory management data through a non-volatile cell based register are described. A memory device may include a set of latch units addressable via a set of row lines and a set of column lines. Each latch unit may include a sense amplifier coupled with a first line and a first non-volatile capacitor coupled with the first line and a second line, where the first capacitor is configured to store a charge representing one or more bits. Additionally, each latch unit may include a second capacitor coupled with the first line and a third line, where the second capacitor is configured to amplify a voltage at the first line based on the charge stored in the first capacitor.

A memory system includes semiconductor memory devices and a control device. Each of the semiconductor memory devices includes a first pad to which a first signal is input, a second pad to which a second signal is input, a third pad to which a third signal is input, a memory cell array, a sense amplifier, and a data register. In a first mode, after the first signal is switched, a command set instructing a data out operation is input via the second pad. In a second mode, after the first signal is switched, the command is input via at least the third pad. The control device executes a first operation assigning different addresses to the respective semiconductor memory devices and a second operation causing the modes of the respective semiconductor memory devices to be switched from the first to the second mode.

A memory device supporting multi-address read operations improves throughput on a bi-directional serial port. The device includes a memory array and an input/output port having an input mode and an output mode. The input/output port has at least one signal line used alternately in both the input and output modes. A controller includes logic configured to execute a multi-address read operation in response to receiving a read command on the input/output port, the multi-address read operation including receiving a first address and a second address using the at least one signal line before outputting data.

Methods, systems, and devices for activate commands for memory preparation are described. A memory device may receive an activate command for a row of a memory bank in the memory device. The activate command may include an indicator that indicates a type of an access operation associated with the activate command. The memory device may perform, based on the type of the access operation, an operation to prepare the memory device for the access operation. The memory device may then receive an access command for the access operation after performing the operation to prepare the memory device for the access operation.

In a method of operating a nonvolatile memory device that includes a memory block including cell strings where each of the cell strings includes a string selection transistor, memory cells and a ground selection transistor which are connected in series and disposed in a vertical direction, each of word-lines coupled to the memory cells is set up to a respective target level during a word-line set-up period, a sensing operation on target memory cells is performed by applying a read voltage to a selected word-line coupled to the target memory cells while applying a read pass voltage to unselected word-lines during a sensing period, and while consuming an internal voltage connected to the unselected word-lines in a particular circuit in the nonvolatile memory device, a voltage level of the unselected word-lines is recovered to a level of the internal voltage during a discharge period of a word-line recovery period.

A memory device is provided. The memory device comprises a memory cell array connected to a first bit line and a complementary bit line, a first bit line sense amplifier configured to sense, amplify and the first bit line signal output a first bit line signal and the complimentary bit signal output on a complementary bit line signal output on the first bit line and the complementary bit line, a charge transfer transistor connected to the first bit line sense amplifier and configured to be gated by a charge transfer signal of a first node, an offset transistor configured to connect the first node and a second node based on an offset removal signal and a pre-charging transistor connected between the second node and a pre-charging voltage line and the pre-charging transistor being configured to pre-charge the first bit line or the complementary bit line based on an equalizing signal.