Some embodiments include apparatuses in which one of such apparatus includes a first memory cell including a first transistor having a first channel region coupled between a data line and a conductive region, and a first charge storage structure located between the first data line and the conductive region, and a second transistor having a second channel region coupled to and located between the first data line and the first charge storage structure; a second memory cell including a third transistor having a third channel region coupled between a second data line and the conductive region, and a second charge storage structure located between the second data line and the conductive region, and a fourth transistor having a fourth channel region coupled to and located between the second data line and the second charge storage structure; a conductive line forming a gate of each of the first, second, third, and fourth transistors; and a conductive structure located between the first and second charge storage structures and electrically separated from the conductive region.

According to one embodiment, a semiconductor device includes a first electrode, a second electrode, and an oxide semiconductor layer provided between the first electrode and the second electrode and including a first region, a second region between the first region and the second electrode, and a third region between the first region and the second region. A gate electrode surrounds the third region, and a gate insulating layer is between the gate electrode and the third region. A first resistivity of the first region is higher than a second resistivity of the second region. A first distance between the first electrode and the gate electrode in a first direction from the first electrode toward the second electrode is shorter than a second distance between the gate electrode and the second electrode in the first direction.

A data device with a small circuit area and reduced power consumption is used. The data processing device includes a NAND memory portion and a controller. The memory portion includes a first string and a second string in different blocks. The first string includes a first memory cell, and the second string includes a second memory cell. On reception of first data and a signal including an instruction to write the first data, the controller writes the first data to the first memory cell. Then, the controller reads the first data from the first memory cell and writes the first data to the second memory cell.

To provide a semiconductor device suitable for miniaturization. To provide a highly reliable semiconductor device. To provide a semiconductor device with improved operating speed. A semiconductor device including a memory cell including first to cth (c is a natural number of 2 or more) sub memory cells, wherein: the jth sub memory cell includes a first transistor, a second transistor, and a capacitor; a first semiconductor layer included in the first transistor and a second semiconductor layer included in the second transistor include an oxide semiconductor; one of terminals of the capacitor is electrically connected to a gate electrode included in the second transistor; the gate electrode included in the second transistor is electrically connected to one of a source electrode and a drain electrode which are included in the first transistor; and when j≥2, the jth sub memory cell is arranged over the j-lth sub memory cell.

To provide a semiconductor device suitable for miniaturization. To provide a highly reliable semiconductor device. To provide a semiconductor device with improved operating speed. A semiconductor device including a memory cell including first to cth (c is a natural number of 2 or more) sub memory cells, wherein: the jth sub memory cell includes a first transistor, a second transistor, and a capacitor; a first semiconductor layer included in the first transistor and a second semiconductor layer included in the second transistor include an oxide semiconductor; one of terminals of the capacitor is electrically connected to a gate electrode included in the second transistor; the gate electrode included in the second transistor is electrically connected to one of a source electrode and a drain electrode which are included in the first transistor; and when j≥2, the jth sub memory cell is arranged over the j-lth sub memory cell.

Provided is a semiconductor device having a novel structure. A first transistor, a second transistor, a third transistor, and a capacitor are included. The first transistor has a function of retaining a first potential corresponding to first data supplied to a gate of the third transistor through the first transistor when being in an off state. The capacitor has a function of changing the first potential retained in the gate of the third transistor into a second potential in accordance with a change in potential corresponding to second data supplied to one electrode of the capacitor. The second transistor has a function of setting a potential of one of a source and a drain of the third transistor to a potential corresponding to a potential of a gate of the second transistor. The third transistor has a function of supplying output current corresponding to a potential of the gate of the third transistor to the other of the source and the drain of the third transistor. The output current is current flowing when the third transistor operates in a subthreshold region.

An erasable programmable single-poly non-volatile memory cell and an associated array structure are provided. The memory cell comprises a select transistor and a floating gate transistor. The floating gate of the floating gate transistor and an assist gate region are collaboratively formed as a capacitor. The floating gate of the floating gate transistor and an erase gate region are collaboratively formed as another capacitor. Moreover, the select transistor, the floating gate transistor and the two capacitors are collaboratively formed as a four-terminal memory cell. Consequently, the size of the memory cell is small, and the memory cell is operated more easily.

An erasable programmable single-poly non-volatile memory cell and an associated array structure are provided. The memory cell comprises a select transistor and a floating gate transistor. The floating gate of the floating gate transistor and an assist gate region are collaboratively formed as a capacitor. The floating gate of the floating gate transistor and an erase gate region are collaboratively formed as another capacitor. Moreover, the select transistor, the floating gate transistor and the two capacitors are collaboratively formed as a four-terminal memory cell. Consequently, the size of the memory cell is small, and the memory cell is operated more easily.

It is an object to provide a memory device whose power consumption can be suppressed and a semiconductor device including the memory device. As a switching element for holding electric charge accumulated in a transistor which functions as a memory element, a transistor including an oxide semiconductor film as an active layer is provided for each memory cell in the memory device. The transistor which is used as a memory element has a first gate electrode, a second gate electrode, a semiconductor film located between the first gate electrode and the second gate electrode, a first insulating film located between the first gate electrode and the semiconductor film, a second insulating film located between the second gate electrode and the semiconductor film, and a source electrode and a drain electrode in contact with the semiconductor film.

[Problem] To provide a semiconductor device suitable for miniaturization. To provide a highly reliable semiconductor device. To provide a semiconductor device with improved operating speed.

[Solving Means] A semiconductor device including a memory cell including first to cth (c is a natural number of 2 or more) sub memory cells, wherein: the jth sub memory cell includes a first transistor, a second transistor, and a capacitor; a first semiconductor layer included in the first transistor and a second semiconductor layer included in the second transistor include an oxide semiconductor; one of terminals of the capacitor is electrically connected to a gate electrode included in the second transistor; the gate electrode included in the second transistor is electrically connected to one of a source electrode and a drain electrode which are included in the first transistor; and when j≥2, the jth sub memory cell is arranged over the j−1th sub memory cell.