专利汇可以提供MEMORY CELL AND MEMORY ARRAY UTILIZING THE MEMORY CELL专利检索,专利查询,专利分析的服务。并且A memory cell comprising a first switch device, a second switch device and a capacitor is disclosed. The first switch device has: a control terminal coupled to a select line, wherein the first switch device is controlled by the select line; a first terminal, coupled to a bit line parallel with the select line. The second switch device has: a first terminal, coupled to the second terminal of the first switch device; a control terminal, coupled to a word line orthogonal to the bit line and the select line, wherein the second switch device is controlled by the word line. The capacitor has a first terminal coupled to the second terminal of the second switch device and a second terminal coupled to a predetermined voltage level, wherein the data is read from the capacitor or written to the capacitor via the bit line.,下面是MEMORY CELL AND MEMORY ARRAY UTILIZING THE MEMORY CELL专利的具体信息内容。
What is claimed is:
1. Field of the Invention
The present invention relates to a memory cell and a memory array utilizing the memory cell, and particularly relates to the structure of a memory cell and a memory array.
2. Description of the Prior Art
A conventional DRAM cell includes a bit line, a word line, a switch device (always be a transistor) and a capacitor. The capacitor is utilized to store data when it is charged or discharged (logic value 0 or 1). The switch device is turned on or off via a word line. The bit line is utilized to transmit the data read from the capacitor of the memory cell, or the data written to the capacitor, when the switch device to the memory cell is turned on.
With the advancement of semiconductor processing technologies, the size of semiconductor devices is shrinking. Accordingly, the sizes of DRAM cells are also becoming smaller, thus significantly reducing the distances between bit lines. As a result, adjacent bit lines may suffer undesirable coupling effect and generate noise to each other. As a result, data transmitted by bit lines in such a device may therefore be wrongly determined. For example, data 0 may be wrongly determined to be 1, and data 1 may be wrongly determined to be 0.
One objective of the present invention is providing a memory cell and a memory array utilizing the memory cell, which can downsize the circuit area and avoid the coupling effect issue.
One objective of the present invention is to provide a memory array that can avoid the disturbance that the bit lines cause to each other, and the memory cell included in the memory array.
One embodiment of the present invention discloses a memory cell, which comprises a first switch device, a second switch device and a capacitor. The first switch device has: a control terminal coupled to a select line, wherein the first switch device is controlled by the select line to be turned on or turned off; a first terminal, coupled to a bit line parallel with the select line; and a second terminal. The second switch device has: a first terminal, coupled to the second terminal of the first switch device; a control terminal, coupled to a word line orthogonal to the bit line and the select line, wherein the second switch device is controlled by the word line to be turned on or turned off; and a second terminal. The capacitor has a first terminal coupled to the second terminal of the second switch device and a second terminal coupled to a predetermined voltage level, wherein the data is read from the capacitor or written to the capacitor via the bit line.
Another embodiment of the present invention discloses a memory array comprising a plurality of memory cells. Each of the memory cells comprises a first switch device, a second switch device and a capacitor. The first switch device has: a control terminal coupled to a column select line, wherein the first switch device is controlled by the column select line to be turned on or turned off; a first terminal, coupled to a bit line parallel with the column select line; and a second terminal. The second switch device has: a first terminal, coupled to the second terminal of the first switch device; a control terminal coupled to a word line orthogonal to the bit line and the column select line, wherein the second switch device is controlled by the word line to be turned on or turned off; and a second terminal. The capacitor has a first terminal coupled to the second terminal of the second switch device and a second terminal coupled to a predetermined voltage level, wherein the data is read from the capacitor or written to the capacitor via the bit line.
These objectives of the present invention will no doubt become obvious to those of ordinary skill in the art after reading the following detailed description of the preferred embodiment that is illustrated in the various figures and drawings.
Certain terminologies are used throughout the description and following claims to refer to particular components. As one skilled in the art will appreciate, electronic equipment manufacturers may refer to a component by different terms. This document does not intend to distinguish between components that differ in terms but not function. In the following description and in the claims, the terms “include” and “comprise” are used in an open-ended fashion, and thus should be interpreted to mean “include, but not limited to . . . ”. Also, the term “couple” is intended to mean either an indirect or direct electrical connection. Accordingly, if one device is coupled to another device, that connection may be through a direct electrical connection, or through an indirect electrical connection via other devices and connections. Please note that a DRAM is utilized for explaining the following embodiments. The following embodiments are, nevertheless, applicable to other types of memory devices.
Please refer to
The second switch device Tr2 includes a control terminal coupled to a word line WL, and is turned on or off according to the potential of the word line WL. A first terminal of the second switch device Tr2 is coupled to a second terminal of the first switch device Tr1 (in this embodiment, they are directly connected). The capacitor C includes a first terminal coupled to a second terminal of the second switch device Tr2, and a second terminal coupled to a predetermined voltage level. The capacitor C is for storing data, and the data is read from the capacitor C or written to the capacitor C via the bit line BL when both the first switch device Tr1 and the second switch device Tr2 are turned on. Please note that the embodiment shown in
A conventional DRAM memory cell has only the second switch device Tr2 and the capacitor C. When the second switch device Tr2 is turned on, the bit line BL is electronically connected to the capacitor C and can transmit data to the capacitor C or read data from the capacitor C. If, however, the memory cell further includes the first switch device Tr1 as is shown in the present invention, the bit line BL will transmit no data and remain silent when the first switch device Tr1 is turned off, even if the second switch device Tr2 is turned on. To make the connection between bit line BL and the capacitor C, the first switch device Tr1 must also be turned on.
Also, transistors such as NMOSFETs can be implemented as switch devices Tr1 and Tr2. In this case, first terminals of the first and the second switch devices Tr1 and Tr2 are drain terminals, control terminals of the first and the second switch devices Tr1 and Tr2 are gate terminals, and the second terminals of the first and the second switch devices Tr1 and Tr2 are source terminals. Please note that this example is not intended to limit the scope of the present invention. For example, other devices that can be utilized as switch devices, such as PMOSFETs or BJTs, can also be the switch devices Tr1 and Tr2.
One exemplary process for manufacturing the semiconductor structure is explained as below. Please note that the process shown in
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In
Via the brief steps disclosed in
Please refer to
In one embodiment, when the bit lines BL1, BL3 of the odd memory cells odd1, odd2, odd3, odd4 are transmitting data, the first switch devices Tr1 in the even memory cells even1, even2, even3, even4 are controlled by the column select line SLe to be turned off, such that the bit lines BL2BL4 of the even memory cells even1, even2, even3, even4 cease transmitting data and keep silent. Similarly, when the bit lines BL2, BL4 of the even memory cells even1, even2, even3, even4 are transmitting data (ex. in a sensing stage), the first switch devices Tr1 in the odd memory cells odd1, odd2, odd3 and odd4 are controlled by the column select line SLo to be turned off, such that the bit lines BL1, BL3 cease transmitting data and keep silent.
In this way, the bit line that ceases transmitting data can be utilized as shielding for the bit line that transmits data, thus the two or more bit lines transmitting data can be prevented from disturbing to each other since there is a shielding located between two active bit lines.
In view of the above mentioned embodiment shown in
The memory cells in the memory array can be classified into a first group of memory cells and a second group of memory cells, and the bit lines of the memory array are arranged in a way that no adjacent bit lines are from the same group of memory cells. In this arrangement, the memory operation can be designed such that when the bit lines of one of the two groups of memory cells are transmitting data, the bit lines of the other group of memory cells are not transmitting data. In this way, the noise coupling effect between bit lines is minimized.
It should be noted that the structure shown in
In view of above-mentioned embodiments, the memory cell according to present invention can downsize the circuit region since it has a 3D structure. Also, the noise coupling effect between two adjacent bit lines can be minimized. Besides, the memory cells disclosed in the present invention can be utilized for folded bit lines.
Those skilled in the art will readily observe that numerous modifications and alterations of the device and method may be made while retaining the teachings of the invention.
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