A memory device according to the present technology includes a memory cell array configured to include planes having a plurality of memory cells, a page buffer connected to at least one memory cell among the memory cells through a bit line and configured to perform a sensing operation of reading data stored in the at least one memory cell connected to the bit line, a common reference voltage generator configured to generate a common reference voltage, a plurality of merged buffers configured to generate a reference signal using the common reference voltage, and control logic configured to control an operation of the common reference voltage generator and the merged buffers so that page buffer control signals generated based on the reference signal are supplied to the page buffer.

A memory device according to the present technology includes a memory cell array configured to include planes having a plurality of memory cells, a page buffer connected to at least one memory cell among the memory cells through a bit line and configured to perform a sensing operation of reading data stored in the at least one memory cell connected to the bit line, a common reference voltage generator configured to generate a common reference voltage, a plurality of merged buffers configured to generate a reference signal using the common reference voltage, and control logic configured to control an operation of the common reference voltage generator and the merged buffers so that page buffer control signals generated based on the reference signal are supplied to the page buffer.

In a method of reading data in a nonvolatile memory device including a plurality of memory cells having a plurality of states including a first state and a second state, a first read operation for the first state is performed, and a second read operation for the second state is performed. To perform the first read operation, cell counts for a valley of the first state are obtained by performing a valley cell count operation for the first state, a first read voltage level for the first state is determined based on the cell counts and at least one first reference parameter for the first state, and a first sensing operation for the first state is performed by using the first read voltage level. To perform the second read operation, a second read voltage level for the second state is determined based on the cell counts and at least one second reference parameter for the second state, and a second sensing operation for the second state is performed by using the second read voltage level.

In a method of reading data in a nonvolatile memory device including a plurality of memory cells having a plurality of states including a first state and a second state, a first read operation for the first state is performed, and a second read operation for the second state is performed. To perform the first read operation, cell counts for a valley of the first state are obtained by performing a valley cell count operation for the first state, a first read voltage level for the first state is determined based on the cell counts and at least one first reference parameter for the first state, and a first sensing operation for the first state is performed by using the first read voltage level. To perform the second read operation, a second read voltage level for the second state is determined based on the cell counts and at least one second reference parameter for the second state, and a second sensing operation for the second state is performed by using the second read voltage level.

A memory device includes an array of memory cells, a plurality of bit lines, a current control circuit, and a discharge enable circuit. The array of memory cells includes a plurality of columns of memory cells. The plurality of bit lines are respectively coupled to the plurality of columns of memory cells. The current control circuit is coupled to the plurality of bit lines to control a discharge current in a discharge operation. The discharge enable circuit is coupled to the current control circuit to enable the discharge operation. The discharge operation discharges a charge on the plurality of bit lines.

A memory device comprising multiple memory planes is disclosed. The memory device further comprises a first pump set coupled with the multiple memory planes, and configured to supply a first output voltage to multiple linear regulators during a steady phase, and a second pump set coupled with the multiple memory planes, and configured to supply a second output voltage to the multiple linear regulators during a ramping phase. The multiple linear regulators can includes a first linear regulator set configured to regulate the first output voltage or the second output voltage to generate a first voltage bias for a first group of word lines of the plurality of memory planes, and a second linear regulator set configured to regulate the first output voltage or the second output voltage to generate a second voltage bias for a second group of word lines of the plurality of memory planes.

A driver circuit for operating a memory cell, adapted to be coupled to at least one memory cell through a respective output node, said driver circuit including: a first circuit for supplying the memory cell with a first read reference voltage through the output node; a second circuit for supplying the memory cell with a second read reference voltage through the output node; and a third circuit for controlling an operation of the second circuit, wherein a range of the second read reference voltage at the output node at the output node is wider than a range of the first read reference voltage at the output node during a read operation on the memory cell.

A driver circuit for operating a memory cell, adapted to be coupled to at least one memory cell through a respective output node, said driver circuit including: a first circuit for supplying the memory cell with a first read reference voltage through the output node; a second circuit for supplying the memory cell with a second read reference voltage through the output node; and a third circuit for controlling an operation of the second circuit, wherein a range of the second read reference voltage at the output node at the output node is wider than a range of the first read reference voltage at the output node during a read operation on the memory cell.

According to the present disclosure, a nonvolatile memory device may include an operational amplifier comparing a reference voltage with a voltage of a feedback node; a first feedback network circuit generating a first output voltage by dividing an input voltage in response to an output voltage of the operational amplifier, and transmitting a voltage corresponding to the first output voltage to the feedback node in response to a first feedback signal, a second feedback network circuit generating a second output voltage by dividing the input voltage in response to the output voltage of the operational amplifier, and transmitting a voltage corresponding to the second output voltage to the feedback node in response to a second feedback signal, and a third feedback network circuit generating a third output voltage by dividing the input voltage in response to the output voltage of the operational amplifier, and transmitting a voltage corresponding to the third output voltage to the feedback node in response to a third feedback signal.

According to the present disclosure, a nonvolatile memory device may include an operational amplifier comparing a reference voltage with a voltage of a feedback node; a first feedback network circuit generating a first output voltage by dividing an input voltage in response to an output voltage of the operational amplifier, and transmitting a voltage corresponding to the first output voltage to the feedback node in response to a first feedback signal, a second feedback network circuit generating a second output voltage by dividing the input voltage in response to the output voltage of the operational amplifier, and transmitting a voltage corresponding to the second output voltage to the feedback node in response to a second feedback signal, and a third feedback network circuit generating a third output voltage by dividing the input voltage in response to the output voltage of the operational amplifier, and transmitting a voltage corresponding to the third output voltage to the feedback node in response to a third feedback signal.