Abstract: In a semiconductor device particularly including a phase change material, the reliability of the read-out operation is improved. In a read-out operation of a phase change memory, a bit line to be read out is precharged in advance with a sufficiently low voltage that can prevent the destructive read operation. In this state, after a word line is activated and a period in which the voltage is sufficiently discharged via a storage element which is in a low resistance state elapses (first read out), charge sharing is performed between the bit line and a read bit line of a sense amplifier which is precharged to a high voltage, and a read-out operation is performed again (second read out). Consequently, the read-out signal amount can be increased while suppressing the read current.

Abstract: A direct sense amplifier of the present invention incorporates and isolates: an MOS transistor serving as a differential pair and having a gate connected to a bit line; and an MOS transistor controlled by a column select line wired between RLIO lines in a bit-line direction, and further connects a source of the MOS transistor serving as the differential pair to a common source line wired in the word-line direction. Since the direct sense amplifier only in a select map is activated by the column select line and the common source line during an read operation, power consumption is significantly reduced during the read operation. Also, since a parasitic capacitance of the MOS transistor serving as the differential pair is separated from the local IO line, a load capacity of the local IO line is reduced and the read operation is speeded up. In addition, during the read operation, a data pattern dependency of the load capacity of the local IO line is reduced and a post-manufacture test is easily made.

Abstract: A column circuit that amplifies signals read from a sense amplifier array SAA to local input/output lines LIO in sub-amplifiers SAMP to transfer the amplified signals to main input/output lines MIO is provided. A current control circuit IC that can set one of two kinds of currents according to read enable signals RD1, RD2 is provided in each sub-amplifier SAMP. The read enable signals RD1, RD2 are generated at timings corresponding to the number of cycles in burst read operation under control of the timing controller. Current in the current control circuit IC is set to be large by the RD1 in burst read operation cycle just after activation of a memory bank, while current in the current control circuit IC is set to be small by the RD2 in the next and subsequent burst read cycles. Accordingly, expansion of an operation margin or reduction of power consumption can be realized in a semiconductor device including a semiconductor memory such as a DRAM.

Abstract: A write command is inputted from an outside, voltages of bit lines become VDL and VSS, and a voltage in accordance with a threshold voltage (LVT: low threshold voltage, MVT: mid threshold voltage, HVT: high threshold voltage) of a memory cell transistor is written into a storage node of a capacitor via the memory cell transistor. Thereafter, when a plate line connected to a plate side of the capacitor is driven from voltage VPL to voltage VPH and the voltage of the storage node is increased due to coupling, the voltage VDL of the bit line is reduced to the voltage VDP, and the voltage excessively written into the storage node is reduced in accordance with a level of a threshold voltage of the memory cell transistor, thereby reducing a variation in the voltage of the storage node due to a variation in the threshold voltage.

Abstract: A sense amplifier capable of performing high-speed data sense operation with lower power consumption using a minuscule signal from a memory cell even in a case where a memory array voltage is reduced. A plurality of drive switches for over-driving are distributively arranged in a sense amplifier area, and a plurality of drive switches for restore operation are concentratively disposed at one end of a row of the sense amplifiers. A potential for over-driving is supplied using a meshed power line circuit. Through the use of the drive switches for over-driving, initial sense operation can be performed on data line pairs with a voltage having an amplitude larger than a data-line amplitude, allowing implementation of high-speed sense operation. The distributed arrangement of the drive switched for over-driving makes it possible to dispersively supply current in sense operation, thereby reducing a difference in sense voltage with respect to far and near positions of the sense amplifiers.

Abstract: A phase change memory is provided with a write data register, an output data selector, a write address register, an address comparator and a flag register. Write data is not only written into a memory cell but also retained by the write data register until the next write cycle. If a read access occurs to that address before the next write cycle, data is read out from the register without reading the data from the memory cell array. Without elongating the cycle time, it is possible not only to use a long time to write data into a memory cell therein but also to make longer the interval between the time when a write operation is done and the time when the subsequent read operation is made from that memory cell. As a result, data can be written reliably.

Abstract: A sense amplifier is constructed to reduce the occurrence of malfunctions in a memory read operation, and thus degraded chip yield, due to increased offset of the sense amplifier with further sealing down. The sense amplifier circuit is constructed with a plurality of pull-down circuits and a pull-up circuit, and a transistor in one of the plurality of pull-down circuits has a constant such as a channel length or a channel width larger than that of a transistor in another pulldown circuit. The pull-down circuit with a larger constant of a transistor is first activated, and then, the other pull-down circuit and the pull-up circuit are activated to perform the read operation.

Abstract: A semiconductor integrated circuit is provided which includes a first memory array including a plurality of first bit lines, a plurality of first word lines, and a plurality of first memory cells, the plurality of first memory cells being provided at intersections of the plurality of first bit lines and the plurality of first word lines. Each of the plurality of first bit lines has a first line and a second line connected with the first line via a first contact, in which the first line and the second line are formed of different layers from one another.

Abstract: A semiconductor device comprises a plurality of memory cells, a central processing unit, a timer circuit which times a RESET time, and a timer circuit which times a SET time. A threshold voltage of an NMOS transistor of each memory cell is lower than that of the peripheral circuit, thereby easily executing a RESET operation. The direction of a flowing current is changed across the RESET operation and the SET operation, and the bit lines are activated at high speed, thus preventing system malfunctions. Further, the semiconductor device can overcome such problems as a wrong write operation and data destruction, resulting from the variation in the CMOS transistors when operating phase change elements with minimum size CMOS transistors at a core voltage (e.g. 1.2 V). According to the present invention, stable operations can be realized at a low voltage, using minimum-size cell transistors.

Abstract: A direct sense amplifier of the present invention incorporates and isolates: an MOS transistor serving as a differential pair and having a gate connected to a bit line; and an MOS transistor controlled by a column select line wired between RLIO lines in a bit-line direction, and further connects a source of the MOS transistor serving as the differential pair to a common source line wired in the word-line direction. Since the direct sense amplifier only in a select map is activated by the column select line and the common source line during an read operation, power consumption is significantly reduced during the read operation. Also, since a parasitic capacitance of the MOS transistor serving as the differential pair is separated from the local IO line, a load capacity of the local IO line is reduced and the read operation is speeded up. In addition, during the read operation, a data pattern dependency of the load capacity of the local IO line is reduced and a post-manufacture test is easily made.

Abstract: There is achieved a high-integrated and high-speed nonvolatile memory which can stabilize an operation of a phase-change memory for a short operation cycle time. A latch is provided in a write driver. A change to a high-resistance state of a phase-change element is performed per column cycle by a write-enable signal, and a change to a low-resistance state thereof is performed after a pre-charge command is inputted and concurrently with deactivation of a pre-charge signal. Thereby, a write time to a memory cell in which phase-change resistance is changed to a low-resistance state, and a period from a write operation for changing the phase-change resistance to a high-resistance state to a read operation to the above memory cell can be lengthened without extending the column cycle time, so that the stable write operation is achieved.

Abstract: Disclosed is a sense amplifier arrangement that achieves high-speed access and shorter cycle time when array voltage is lowered in a DRAM. In a TG clocking sense system to separate data lines between the array side and the sense amplifier side in an early stage of a sensing period, a restore amplifier RAP is added, which amplifies data lines on the array side by referring to the data in the sense amplifier, and the restore amplifier is driven by a voltage VDH higher than the array voltage VDL. As a result, high-speed sense operation of the TG clocking system is made compatible with high-speed restore operation of overdrive system, and it is possible to achieve high-speed access operation and shorter cycle time.

Abstract: A write command is inputted from an outside, voltages of bit lines become VDL and VSS, and a voltage in accordance with a threshold voltage (LVT: low threshold voltage, MVT: mid threshold voltage, HVT: high threshold voltage) of a memory cell transistor is written into a storage node of a capacitor via the memory cell transistor. Thereafter, when a plate line connected to a plate side of the capacitor is driven from voltage VPL to voltage VPH and the voltage of the storage node is increased due to coupling, the voltage VDL of the bit line is reduced to the voltage VDP, and the voltage excessively written into the storage node is reduced in accordance with a level of a threshold voltage of the memory cell transistor, thereby reducing a variation in the voltage of the storage node due to a variation in the threshold voltage.

Abstract: A DRAM adopting a single-intersection memory cell array having randomly accessible data registers accessed whenever the chip is accessed externally. When data items recorded in the data registers are simultaneously written in the memory cell array, the data items are encoded. When data items are read from the memory cell array into the data registers, the data items are decoded. The margin is enhanced because array noise derived from reading is reduced. In addition, the access time of the DRAM is also reduced.

Abstract: A semiconductor memory device capable of achieving a sufficient operating margin without increasing an area penalty even in the case of miniaturization is provided. An error correction system composed of a data bit of 64 bits and a check bit of 9 bits is introduced to a memory array such as DRAM, and an error correction code circuit required therein is disposed near a sense amplifier array. In addition to normal memory arrays composed of such memory arrays, a redundant memory array having a sense amplifier array and an error correction code circuit adjacent thereto is provided in a chip. By this means, the error which occurs in the manufacture can be replaced. Also, the error correction code circuit corrects the error at the time of an activate command and stores the check bit at the time of a pre-charge command.

Abstract: In accordance with the regions which are component elements of memory information (entry) and input information (comparison information or search key), quaternary information including a pair of the minimum value and the difference or ternary information including a pair of the data and the mask are used as I/O signals. In addition, in accordance with the two types of information, two types of encoding circuits and decoding circuits are disposed, and either one of the encoding circuits and the decoding circuits are activated in accordance with the values set to the registers disposed to designate the format of information in each region of the entry and the search key. By selecting the desired register from the plurality of registers in response to the external command signals and address signals, the encoding and decoding in accordance with the information to be processed are carried out.

Abstract: There is achieved a high-integrated and high-speed nonvolatile memory which can stabilize an operation of a phase-change memory for a short operation cycle time. A latch is provided in a write driver. A change to a high-resistance state of a phase-change element is performed per column cycle by a write-enable signal, and a change to a low-resistance state thereof is performed after a pre-charge command is inputted and concurrently with deactivation of a pre-charge signal. Thereby, a write time to a memory cell in which phase-change resistance is changed to a low-resistance state, and a period from a write operation for changing the phase-change resistance to a high-resistance state to a read operation to the above memory cell can be lengthened without extending the column cycle time, so that the stable write operation is achieved.

Abstract: In a non-volatile phase change memory, information is recorded by utilizing a change in resistance of a phase change portion. When the phase change portion is allowed to generate Joule's heat and is held at a specific temperature, it goes into a state of a low resistance. When the gate voltage of a memory cell selection transistor QM is controlled to afford a low resistance state, the maximum amount of current applied to the phase change portion is limited by the application of a medium-state voltage to the control gate, thereby avoiding overheating of the phase change portion.

Abstract: In a non-volatile phase change memory, information is recorded by utilizing a change in resistance of a phase change portion. When the phase change portion is allowed to generate Joule's heat and is held at a specific temperature, it goes into a state of a low resistance. When the gate voltage of a memory cell selection transistor QM is controlled to afford a low resistance state, the maximum amount of current applied to the phase change portion is limited by the application of a medium-state voltage to the control gate, thereby avoiding overheating of the phase change portion.

Abstract: In a two-transistor gain cell structure, a semiconductor memory device capable of stable reading without malfunction and having small-area memory cells is provided. In a two-transistor gain cell memory having a write transistor and a read transistor, a write word line, a read word line, a write bit line, and a read bit line are separately provided, and voltages to be applied are independently set. Furthermore, a memory cell is connected to the same read word line and write bit line as those of an adjacent memory cell.