Abstract: A semiconductor memory device having nonvolatile memory cells each formed of a MISFET having both a floating gate and a control gate and first and second semiconductor regions serving as the source and drain regions, respectively. In accordance with the method of manufacture thereof, an impurity, for example, arsenic, is introduced to form both the first and second semiconductor regions but with the second semiconductor region having a lower dose thereof so that the first semiconductor region formed attains a junction depth greater than that of the second semiconductor region, and both the first and second semiconductor regions have portions thereof extending under the floating gate electrode. The device and method therefor further feature the formation of MISFETs of peripheral circuits.

Abstract: A semiconductor integrated circuit device with third gates comprising second conduction type source/drain diffusion layer regions 205 formed in first conduction type well 201, floating gates 203b formed on semiconductor substrate 200 through an insulator film 202, control gates 211a formed on floating gates 203b through nitrogen-introduced silicon oxide film 210a and third gates 207a different from the floating gates and the control gates, formed through the semiconductor substrates, the floating gates, the control gates and the insulator film, where the third gates are formed as filled in gaps between the floating gates existing in a vertical direction to word lines and channels and the height of third gates 207a thus formed is made lower than that of floating gates 203b, has improved reduction of memory cell size and operating speed and improved reliability after programming/erasing cycles.

Abstract: A nonvolatile semiconductor memory device configured by a select MOS transistor provided with a gate insulator film and a select gate electrode, as well as a memory MOS transistor provided with a capacitor insulator film comprising a lower potential barrier film, a charge trapping film, and an upper potential barrier film, as well as a memory gate electrode. The charge trapping film is formed with a silicon oxynitride film and the upper potential barrier film is omitted or its thickness is limited to 1 nm and under to prevent the Gm degradation to be caused by the silicon oxynitride film, thereby lowering the erasure gate voltage. The charge trapping film is formed with a silicon oxynitride film used as a main charge trapping film and a silicon nitride film formed on or beneath the silicon oxynitride film so as to form a potential barrier effective only for holes. And, a hot-hole erasing method is employed to lower the erasure voltage.

Abstract: Disclosed is a nonvolatile memory system including at least one nonvolatile memory each having a plurality of nonvolatile memory cells and a buffer memory; and a control device coupled to the nonvolatile memory. The control device is enabled to receive external data and to apply the data to the nonvolatile memory, and the nonvolatile memory is enabled to operate a program operation including storing the received data to the buffer memory and storing the data held in the buffer memory to ones of nonvolatile memory cells. Moreover, the control device is enabled to receive external data while the nonvolatile memory is operating in the program operation. Also, the buffer memory is capable of receiving a unit of data, equal to the data length of data to be stored at one time of the program operation, the data length being more than 1 byte.

Abstract: An EEPROM having an erasing control circuit that performs at least the read out operation one time on the corresponding memory cells after an erasing operation is performed in connection therewith. The erasing operation is automatically performed by the internal erasing control circuit while the EEPROM is electrically isolated from the microprocessor in response to instructions from the microprocessor. The control by the microprocessor requires only a slightly short period of time during which the erasing commencement is instructed while the EEPROM remains in the system during the erasing operation. In one aspect of the disclosure, a Vcc power source is applied to a source region or a drain region of each nonvolatile semiconductor memory cell, and an erasure voltage having a polarity opposite to that of the Vcc power source is applied to a control gate electrode.

Abstract: A semiconductor memory device having nonvolatile memory cells each formed of a MISFET having both a floating gate and a control gate and first and second semiconductor regions serving as the source and drain regions, respectively. In accordance with the method of manufacture thereof, an impurity, for example, arsenic, is introduced to form both the first and second semiconductor regions but with the second semiconductor region having a lower dose thereof so that the first semiconductor region formed attains a junction depth greater than that of the second semiconductor region, and both the first and second semiconductor regions have portions thereof extending under the floating gate electrode. The device and method therefor further feature the formation of MISFETs of peripheral circuits.

Abstract: Characteristics of a nonvolatile semiconductor memory device are improved. The memory cell comprises: an ONO film constituted by a silicon nitride film SIN for accumulating charge and by oxide films BOTOX and TOPOX disposed thereon and thereunder; a memory gate electrode MG disposed at an upper portion thereof; a select gate electrode SG disposed at a side portion thereof through the ONO film; a gate oxide film SGOX disposed thereunder.

Abstract: A nonvolatile memory apparatus contains plural memories, at least one of which is a nonvolatile memory, and a processing unit. Data input/output (I/O) terminals of the memories and processing unit are mutually coupled by a bus. When the nonvolatile memory is brought into an erasing mode by the processing unit, it becomes electrically isolated as a result of freeing the connection of the I/O terminal thereof during the erase operation. Accordingly, the processing unit is capable of accessing other memories via the bus where information can then be transferred/received between other memory devices and, otherwise, with the input/output port of the system. Control by the processing unit requires a relatively short time during which the erasing commencement is instructed so as to minimize interruption of the throughput capability of the system. Following the designation of an erasing mode, a data polling mode is designated.

Abstract: Disclosed is a nonvolatile memory system including at least one nonvolatile memory each having a plurality of nonvolatile memory cells and a buffer memory; and a control device coupled to the nonvolatile memory. The control device is enabled to receive external data and to apply the data to the nonvolatile memory, and the nonvolatile memory is enabled to operate a program operation including storing the received data to the buffer memory and storing the data held in the buffer memory to ones of nonvolatile memory cells. Moreover, the control device is enabled to receive external data while the nonvolatile memory is operating in the program operation. Also, the buffer memory is capable of receiving a unit of data, equal to the data length of data to be stored at one time of the program operation, the data length being more than 1 byte.

Abstract: In a semiconductor integrated circuit device including a third gate, the present invention improves miniaturization and operation speed and reduces a defect density of an insulator film. In a semiconductor integrated circuit device including a well of a first conductivity type formed in a semiconductor substrate, a source/drain diffusion layer of a second conductivity type inside the well, a floating gate formed over the semiconductor substrate through an insulator film, a control gate formed and isolated from the floating gate through an insulator film, word lines formed by connecting the control gates and a third gate formed and isolated from the semiconductor substrate, the floating gate and the control gate through an insulator film and different from the floating gate and the control gate, the third gate is buried into a space of the floating gates existing in a direction vertical to the word line and a channel.

Abstract: There was a problem that sharpening of a substrate and localized increase in the thickness of a gate oxide film become more remarkable as the thickness of the gate oxide film is increased to degrade the gate withstand voltage at the surface edge of shallow groove isolation structure. In the present invention, a bird's beak is disposed at the surface edge of a shallow isolation structure GROX11 just below gate electrode POLY11 and in contact with the gate insulation film HOX1 to form the gate insulation film HOX1 previously. This can ensure normal gate withstand voltage of the MOS transistor and favorable device isolation withstand voltage and increased integration degree simultaneously.

Abstract: A parallel connection-type nonvolatile memory semiconductor device comprises a plurality of memory cells disposed on a semiconductor substrate in matrix form, each including a gate insulating film, a floating gate electrode, an interlayer film and a control gate electrode successively formed so as to cover a channel region on a main surface of the semiconductor substrate, of a first conductivity type; a second conductivity type source and drain regions formed on the semiconductor substrate on both sides opposite to each other, of the floating gate electrode so as to interpose a channel region located under the floating gate electrode therebetween; a first semiconductor region which is adjacent to the drain region and formed by introducing a second conductivity type impurity in the direction of the channel region placed under the floating gate electrode from an end on the drain side, of the floating gate electrode, and which is substantially lower than the drain region in impurity concentration; and a punch-th

Abstract: Disclosed is a nonvolatile memory system including at least one nonvolatile memory each having a plurality of nonvolatile memory cells and a buffer memory; and a control device coupled to the nonvolatile memory. The control device is enabled to receive external data and to apply the data to the nonvolatile memory, and the nonvolatile memory is enabled to operate a program operation including storing the received data to the buffer memory and storing the data held in the buffer memory to ones of nonvolatile memory cells. Moreover, the control device is enabled to receive external data while the nonvolatile memory is operating in the program operation. Also, the buffer memory is capable of receiving a unit of data, equal to the data length of data to be stored at one time of the program operation, the data length being more than 1 byte.

Abstract: Disclosed is a nonvolatile memory system including at least one nonvolatile memory each having a plurality of nonvolatile memory cells and a buffer memory; and a control device coupled to the nonvolatile memory. The control device is enabled to receive external data and to apply the data to the nonvolatile memory, and the nonvolatile memory is enabled to operate a program operation including storing the received data to the buffer memory and storing the data held in the buffer memory to ones of nonvolatile memory cells. Moreover, the control device is enabled to receive external data while the nonvolatile memory is operating in the program operation. Also, the buffer memory is capable of receiving a unit of data, equal to the data length of data to be stored at one time of the program operation, the data length being more than 1 byte.

Abstract: Disclosed is a nonvolatile memory system including at least one nonvolatile memory each having a plurality of nonvolatile memory cells and a buffer memory; and a control device coupled to the nonvolatile memory. The control device is enabled to receive external data and to store the data in the nonvolatile memory, and the nonvolatile memory is capable of performing at least a program operation and an erase operation. Moreover, the control device is enabled to receive external data while the nonvolatile memory is operating in the erase operation. Also, the buffer memory is capable of receiving a unit of data, in the program operation, equal to the data length of data to be stored at one time of the program operation, the data length being more than 1 byte.

Abstract: An EEPROM having an erasing control circuit that performs at least the read out operation one time on the corresponding memory cells after an erasing operation is performed in connection therewith. The erasing operation is automatically performed by the internal erasing control circuit while the EEPROM is electrically isolated from the microprocessor in response to instructions from the microprocessor. The control by the microprocessor requires only a slightly short period of time during which the erasing commencement is instructed while the EEPROM remains in the system during the erasing operation. In one aspect of the disclosure, a Vcc power source is applied to a source region or a drain region of each nonvolatile semiconductor memory cell, and an erasure voltage having a polarity opposite to that of the Vcc power source is applied to a control gate electrode.

Abstract: In a semiconductor integrated circuit device including a third gate, the present invention improves miniaturization and operation speed and reduces a defect density of an insulator film. In a semiconductor integrated circuit device including a well of a first conductivity type formed in a semiconductor substrate, a source/drain diffusion layer of a second conductivity type inside the well, a floating gate formed over the semiconductor substrate through an insulator film, a control gate formed and isolated from the floating gate through an insulator film, word lines formed by connecting the control gates and a third gate formed and isolated from the semiconductor substrate, the floating gate and the control gate through an insulator film and different from the floating gate and the control gate, the third gate is buried into a space of the floating gates existing in a direction vertical to the word line and a channel.

Abstract: A simple and easy method for exercising quality control over memory cell inter-layer dielectric film within a short period of time, using a memory array or single memory formed in the scribe area, without stressing nonvolatile semiconductor memory cells and a method of manufacturing a nonvolatile semiconductor memory device; whereby a single nonvolatile memory is formed in an area other than a chip area on a semiconductor wafer and used after completion of a wafer manufacturing process to perform an inter-layer dielectric film quality control process for evaluating the write saturation characteristic, cut out nondefective chips only, and conduct a plastic molding process, achieving an increased yield after chip cutting.

Abstract: A semiconductor memory device having nonvolatile memory cells each formed of a MISFET having both a floating gate and a control gate and first and second semiconductor regions serving as the source and drain regions, respectively. In accordance with the method of manufacture thereof, an impurity, for example, arsenic, is introduced to form both the first and second semiconductor regions but with the second semiconductor region having a lower dose thereof so that the first semiconductor region formed attains a junction depth greater than that of the second semiconductor region, and both the first and second semiconductor regions have portions thereof extending under the floating gate electrode. The device and method therefor further feature the formation of MISFETs of peripheral circuits.

Abstract: An EEPROM (Electrically Erasable Programmable Read Only Memory) has a structure in which the corners of a floating gate electrode of each memory cell MISFET near the source region thereof are rounded. The EEPROM is manufactured by a method characterized in that the ions of an impurity at a high dose are implanted in self-alignment with the floating gate electrode and control gate electrode of the memory cell MISFET so as to form the source and drain regions thereof, whereupon an oxidizing treatment is carried out.