The present disclosure provides a dynamic random access memory (DRAM) including a memory array and a control device. The memory array includes a refresh unit. The refresh unit includes a first cell and a second cell. The first cell is configured to store data. The second cell is configured to have a stored electrical energy by being programmed with the first cell, wherein the first cell and the second cell are controllable by a same row of the memory array. The control device is configured to increase a refresh rate of the refresh unit to a first refresh rate when the stored electrical energy of the second cell becomes lower than a threshold electrical energy, wherein the threshold electrical energy is higher than a standard electrical energy for determining binary logic.

The present disclosure provides a dynamic random access memory (DRAM) including a memory array and a control device. The memory array includes a refresh unit. The refresh unit includes a first cell and a second cell. The first cell is configured to store data. The second cell is configured to have a stored electrical energy by being programmed with the first cell, wherein the first cell and the second cell are controllable by a same row of the memory array. The control device is configured to increase a refresh rate of the refresh unit to a first refresh rate when the stored electrical energy of the second cell becomes lower than a threshold electrical energy, wherein the threshold electrical energy is higher than a standard electrical energy for determining binary logic.

Apparatuses and methods for targeted row refreshes are disclosed herein. In an example apparatus, a predecoder receives a target row address and determines whether a target row of memory associated with the target row address is a primary or a redundant row of memory. The predecoder is further configured to cause one or more rows of memory physically adjacent the primary row of memory to be refreshed if the primary row is the target row or one or more rows of memory physically adjacent the redundant row of memory to be refreshed if the redundant row of memory is the target row of memory.

Devices, systems, and methods include an active mode to accommodate read/write operations of a memory device and a self-refresh mode to accommodate recharging of voltage levels representing stored data when read/write operations are idle. At least one register source provides a first voltage level and a second voltage level that is less than the first voltage level. With such a configuration, during the active mode, the memory device operates at the first voltage level as provided by the at least one register source, and during the self-refresh mode, the memory device operates at the second voltage level as provided by the at least one register source.

A semiconductor device capable of controlling a memory while preventing the functional deterioration of the memory and reducing the power consumption of the semiconductor device is provided. The semiconductor device includes a first semiconductor chip (logic chip) and a second semiconductor chip (memory chip). The first semiconductor chip includes a plurality of temperature sensors disposed in mutually different places, and a memory controller that controls each of a plurality of memory areas provided in the second semiconductor chip based on output results of a respective one of the plurality of temperature sensors.

A semiconductor device may include a refresh control circuit which may generate test addresses that are counted based on a refresh signal and a detection clock signal and may senses logic levels of internal data corresponding to the test addresses to generate a sense signal. The semiconductor device may include a memory circuit may include a plurality of word lines which are selected by the test addresses and may output the internal data stored in memory cells connected to the word lines. The semiconductor device may include an address storage circuit may divide each of the test addresses into a main group and a sub-group to store the main groups and the sub-groups of the test addresses. The address storage circuit may store the sub-groups which are inputted at a point of time that the sense signal is generated, regarding the stored main groups having the same level combination.

The present disclosure includes apparatuses and methods related to refresh in memory. An example apparatus can refresh an array of memory cells in response to a portion of memory cells in an array having threshold voltages that are greater than a reference voltage.

A method for operating a dynamic memory is provided, and the method includes the following steps. A refresh operation is performed on the dynamic memory according to predetermined interval time T, an operation command is received in real time at the same time, a read operation is performed on a selected memory cell according to position information of the selected memory cell in the operation command when the operation command is received, and state data read in the read operation is temporarily stored in a read buffer. The interval time T is less than time t required for a voltage value of a capacitor in the memory cell to drop to a critical capacitor voltage value for the read operation to correctly read the state data of the memory cell during a write operation. According to operation command type information in the operation command, corresponding operations are performed on the selected memory cell.

A method for operating a dynamic memory is provided, and the method includes the following steps. A refresh operation is performed on the dynamic memory according to predetermined interval time T, an operation command is received in real time at the same time, a read operation is performed on a selected memory cell according to position information of the selected memory cell in the operation command when the operation command is received, and state data read in the read operation is temporarily stored in a read buffer. The interval time T is less than time t required for a voltage value of a capacitor in the memory cell to drop to a critical capacitor voltage value for the read operation to correctly read the state data of the memory cell during a write operation. According to operation command type information in the operation command, corresponding operations are performed on the selected memory cell.

Apparatuses and methods for targeted row refreshes are disclosed herein. In an example apparatus, a predecoder receives a target row address and determines whether a target row of memory associated with the target row address is a primary or a redundant row of memory. The predecoder is further configured to cause one or more rows of memory physically adjacent the primary row of memory to be refreshed if the primary row is the target row or one or more rows of memory physically adjacent the redundant row of memory to be refreshed if the redundant row of memory is the target row of memory.