A refresh counter circuit, a refresh counting method and a semiconductor memory are provided. The refresh counter circuit includes: a first signal generator that is configured to generate a first carry signal according to each of refresh pulse signals generated by a received refresh command; a second signal generator that is configured to generate a second carry signal according to a last refresh pulse signal generated by the received refresh command; a first counter that is configured to perform signal inversion according to the first carry signal and generate a first output signal; and a second counter that is configured to count the refresh command according to the second carry signal and generate a second output signal; where the refresh command generates at least two refresh pulse signals.

A memory system includes: a memory controller suitable for generating a first target address by sampling an address according to an active command, and providing the active command, a precharge command, a normal refresh command, the address and the first target address, to a memory device; and the memory device suitable for generating a first target refresh command according to the precharge command and the address, and refreshing one or more word lines corresponding to the first target address according to the first target refresh command.

Apparatuses and methods for generating multiple row hammer address refresh sequences. An example apparatus may include an address scrambler and a refresh control circuit. The address scrambler may receive a first address, output a second address in response to a first control signal, and output a third address in response to a second control signal. The second address may physically adjacent to the first address and the third address may physically adjacent to the second address. The refresh control circuit may perform a refresh operation on the second address when the first control signal is active and perform the refresh operation on the third address when the second control signal is active.

An electronic device includes an intelligent refresh control circuit generating an intelligent refresh pulse with a pulse that has a generation period that is adjusted based on the number of generations of an auto refresh signal during an intelligent refresh operation, and an internal refresh signal generation circuit outputting one of a self-refresh pulse including a pulse that is periodically generated by an enable signal during a self-refresh operation and the intelligent refresh pulse as an internal refresh signal.

An apparatus may include multiple address registers each storing an address signal and multiple counter circuits each storing a count value corresponding to an associated one of the address registers. The apparatus may include a first circuit cyclically selecting one of the address registers in response to a first signal, a second circuit selecting one of the address registers based on the count value of each of the counter circuits, and a third circuit activating a second signal when the first and second circuits select the same one of the address registers.

A memory device includes a memory cell array having a plurality of memory cells connected to wordlines and bitlines, a target row refresh logic configured to perform a refresh operation on at least one of target rows of the memory cell array in response to a refresh management mode command, a weak pattern detector that is activated according to a register update bit value included in the refresh management mode command and that outputs a risk level for each of the target rows, and a mode register circuit that updates at least one mode register value according to the risk level.

A dynamic random-access memory array includes a plurality of memory cells and sensor cells physical arranged in a row. The sensor cells include a transistor and a capacitor having an input terminal connected to a first non-gate terminal of the transistor. A wordline is connected to transistor gates of both the memory cells and sensor cells in the row. A sensor amplifier has inputs connected to the sensor cell, a high voltage reference line, and a low voltage reference line, and an output in communication with a row refresh circuit. If the sensor amplifier detects that the sensor cell voltage falls outside of the range of the high and low voltage reference lines, then a trigger signal is output to request that the row refresh circuit perform a priority row refresh of the memory cells and the sensor cell in the row.

A technique includes determining, via an analog circuit, where an access rate of a memory row associated with a memory device exceeds a threshold. In various examples, upon a determination that the access rate exceeds the threshold, the technique may further comprise generating an alert to indicate possible corruption of data stored in an adjacent row to the memory row.

A method for performing a refresh operation based on system characteristics is provided. A The method includes determining that a current operation condition of a memory component is in a first state and detecting a change in the operation condition from the first state to a second state. The method further includes determining a range of the operation condition to which the second state belongs. The method further includes determining a refresh period associated with the range of the operation condition, the refresh period corresponding to a period of time between a first time when a write operation is performed on a segment of the memory component and a second time when a refresh operation is to be performed on the segment. The method further includes performing the refresh operation on the memory component according to the refresh period.

An electronic device includes an intelligent refresh control circuit generating an intelligent refresh pulse with a pulse that has a generation period that is adjusted based on the number of generations of an auto refresh signal during an intelligent refresh operation, and an internal refresh signal generation circuit outputting one of a self-refresh pulse including a pulse that is periodically generated by an enable signal during a self-refresh operation and the intelligent refresh pulse as an internal refresh signal.