An integrated circuit memory device having: a memory cell; a current sensor connected to the memory cell; a voltage driver connected to the memory cell; and a bleed circuit connected to the voltage driver. During an operation to read the memory cell, the voltage driver drives a voltage applied on the memory cell. The bleed circuit is activated to reduce the voltage during a time period in which the current sensor operates to determine whether or not at least a predetermined level of current is presented in the memory cell.

According to one embodiment, a memory device includes first and second wiring lines, a memory cell connected between the first and second wiring lines and including a resistance change memory element and a switching element connected in series to the resistance change memory element, and a determination circuit determining a determination object resistance state set in advance to the resistance change memory element based on a determination object voltage applied to the second wiring line when the switching element makes a transition from an on-state to an off-state.

A two-terminal memory device and methods for its use are provided. In the device, a bottom electrode is electrically continuous with a first operating terminal, and a control gate electrode is electrically continuous with a second operating terminal. A stack of insulator layers comprising a hopping conduction layer and a tunnel layer is contactingly interposed between the bottom electrode and the control gate electrode. The tunnel layer is thinner than the hopping conduction layer, and it has a wider bandgap than the hopping conduction layer. The hopping conduction layer consists of a material that supports electron hopping transport.

An integrated circuit memory device having: a memory cell; a current sensor connected to the memory cell; a voltage driver connected to the memory cell; and a bleed circuit connected to the voltage driver. During an operation to read the memory cell, the voltage driver drives a voltage applied on the memory cell. The bleed circuit is activated to reduce the voltage during a time period in which the current sensor operates to determine whether or not at least a predetermined level of current is presented in the memory cell.

The present disclosure relates to a method for reading memory cells, comprising the steps of applying a first read voltage to a plurality of memory cells, detecting first threshold voltages exhibited by the plurality of memory cells in response to application of the first read voltage, based on the first threshold voltages, associating a first logic state to one or more cells of the plurality of memory cells, applying a second read voltage to the plurality of memory cells, wherein the second read voltage has the same polarity of the first read voltage and a higher magnitude than an expected highest threshold voltage of memory cells in the first logic state, detecting second threshold voltages exhibited by the plurality of memory cells in response to application of the second read voltage, based on the second threshold voltages, associating a second logic state to one or more cells of the plurality of memory cells, applying a third read voltage to the plurality of memory cells, wherein the third read voltage has the same polarity of the first and second read voltages and is applied at least to a group of memory cells that, during the application the second read voltage, have been reprogrammed to an opposite logic state, detecting third threshold voltages exhibited by the plurality of memory cells in response to application of the third read voltage, and based on the third threshold voltages, associating one of the first or second logic state to one or more of the cells of the of the plurality of memory cells. A related circuit, a related memory device and a related system are also disclosed.

An example apparatus can include a memory array and a memory controller. The memory array can include a first portion including a first plurality of memory cells. The memory array can further include a second portion including a second plurality of memory cells. The memory controller can be coupled to the first portion and the second portion. The memory controller can be configured to operate the first plurality of memory cells for short-term memory operations. The memory controller can be further configured to operate the second plurality of memory cells for long-term memory operations.

The present disclosure includes apparatuses and methods for sensing a resistive memory cell. A number of embodiments include performing a sensing operation on a memory cell to determine a current value associated with the memory cell, applying a programming signal to the memory cell, and determining a data state of the memory cell based on the current value associated with the memory cell before applying the programming signal and a current value associated with the memory cell after applying the programming signal.

A method is provided for a reading memory even if there is a threshold voltage in an overlapped threshold voltage (V.sub.TH) region between a first state distribution and a second state distribution. The method includes ramping a bias on a memory cell a first time to determine a first threshold voltage (V.sub.TH1) of the memory cell and determining whether the V.sub.TH1 is within the overlapped VTH region. Upon determination that the memory cell is within the overlapped V.sub.TH region, the method further includes applying a write pulse to the memory cell; ramping a bias on the memory cell a second time to determine a second threshold voltage (V.sub.TH2); and determining the state of the memory cell prior to receiving the write pulse based on a comparison between the V.sub.TH1 and the V.sub.TH2.

A memory device including: a memory cell array, including a memory cell having a switch element and a data storage element connected to the switch element, wherein the data storage element has a phase change material; and a memory controller for inputting a first read current to the memory cell to detect a first read voltage, inputting a second read current to the memory cell to detect a second read voltage, and inputting a compensation current to the memory cell, wherein the compensation current lowers a resistance value of the data storage element, the compensation current is input when a first state of the memory cell is different from a second state of the memory cell, the first state is determined using the first read voltage and the second state is determined using the second read voltage.

An example apparatus can include a memory array and a memory controller. The memory array can include a first portion including a first plurality of memory cells. The memory array can further include a second portion including a second plurality of memory cells. The memory controller can be coupled to the first portion and the second portion. The memory controller can be configured to operate the first plurality of memory cells for short-term memory operations. The memory controller can be further configured to operate the second plurality of memory cells for long-term memory operations.