Semiconductor memory device having potential control circuit
First Claim
1. A semiconductor memory device comprising:
- a plurality of word lines arranged in a row direction;
a plurality of bit lines arranged in a column direction;
a plurality of memory cells arranged in the row direction and the column direction;
a plurality of potential supply lines connected to a plurality of corresponding bit lines among said plurality of bit lines, respectively; and
a potential control circuit supplying a plurality of predetermined potentials corresponding to said plurality of bit lines through said plurality of potential supply lines, respectively, wherein the plurality of memory cells arranged in said row direction are connected in series, and gates thereof are connected to the word line of said plurality of word lines arranged in the same row direction, and each of said plurality of bit lines is connected to said plurality of memory cells arranged in the two adjacent columns.
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Accused Products
Abstract
If data is to be written to a specific memory cell in each of two adjacent memory cell array blocks, a switch control circuit and a supply circuit supply a first predetermined potential to a first bit line out of first and second bit lines connected to the specific memory cell and supply a second predetermined potential to the second bit line in one memory cell array block. In addition, the first predetermined potential is supplied to the second bit line and the second predetermined potential is supplied to the first bit line in the other memory cell array block. Due to this, this semiconductor memory device can improve throughput while suppressing a current which unnecessarily occurs during data write.
57 Citations
7 Claims
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1. A semiconductor memory device comprising:
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a plurality of word lines arranged in a row direction;
a plurality of bit lines arranged in a column direction;
a plurality of memory cells arranged in the row direction and the column direction;
a plurality of potential supply lines connected to a plurality of corresponding bit lines among said plurality of bit lines, respectively; and
a potential control circuit supplying a plurality of predetermined potentials corresponding to said plurality of bit lines through said plurality of potential supply lines, respectively, wherein the plurality of memory cells arranged in said row direction are connected in series, and gates thereof are connected to the word line of said plurality of word lines arranged in the same row direction, and each of said plurality of bit lines is connected to said plurality of memory cells arranged in the two adjacent columns. - View Dependent Claims (2)
said potential control circuit supplies a first predetermined potential to a first bit line connected to a selected memory cell, supplies a second predetermined potential to a second bit line connected to said selected memory cell, supplies said first predetermined potential to a third bit line adjacent to said first bit line, and supplies said second predetermined potential to a fourth bit line adjacent to said second bit line, among said plurality of bit lines.
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3. A semiconductor memory device comprising:
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a plurality of memory cell array blocks arranged in a column direction; and
a plurality of potential control circuits arranged in the column direction to correspond to said plurality of memory cell array blocks, wherein each of said plurality of memory cell array blocks includes;
a plurality of word lines arranged in a row direction;
a plurality of bit lines arranged in the column direction; and
a plurality of memory cells arranged in the row direction and the column direction, said plurality of memory cells arranged in said row directions are connected in series and gates thereof are connected to the word line of said plurality of word lines arranged in the same row direction, each of said plurality of bit lines is connected to said plurality of memory cells arranged in the two adjacent columns, one of two control circuits selected from said plurality of potential control circuits supplies a first predetermined potential to a first bit line connected to a selected memory cell of said plurality of memory cells and supplies a second predetermined potential to a second bit line, among said plurality of bit lines in the corresponding memory cell array block, and the other potential control circuit adjacent to said potential control circuit supplies the second predetermined potential to said first bit line and supplies the first predetermined potential to said second bit line in the corresponding memory cell array block of said plurality of memory cell array blocks. - View Dependent Claims (4, 5)
each of said plurality of potential control circuits includes: a plurality of potential supply lines arranged according to said plurality of bit lines; and
a supply circuit supplying a plurality of predetermined potentials corresponding to said selected plurality of bit lines through said plurality of potential supply lines, respectively, and an extension direction of said plurality of potential supply lines intersects an extension direction of said plurality of bit lines.
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5. The semiconductor memory device according to claim 3, wherein
each of said plurality of potential control circuits includes: -
a plurality of potential supply lines arranged according to said plurality of bit lines; and
a supply circuit supplying a plurality of predetermined potentials corresponding to said selected plurality of bit lines through said plurality of potential supply lines, respectively, and said plurality of potential supply lines are arranged in parallel to said plurality of bit lines.
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6. A semiconductor memory device comprising:
- a first conductive type semiconductor substrate having a main surface; and
a memory cell array, whereinsaid memory cell array includes;
a plurality of a first conductive layers of a second conductive type formed on said main surface of said semiconductor substrate, and arranged in a column direction;
a plurality of word lines arranged in a row direction;
a plurality of conductive lines formed above said plurality of word lines, arranged in the column direction, and each including a plurality of conductive segments;
a plurality of memory cells arranged to correspond to intersections between said plurality of word lines and said plurality of conductive lines, respectively; and
a plurality of pile driving sections formed on said first conductive layers, respectively, and each of said plurality of pile driving sections includes;
a second conductive layer formed on each of said first conductive layers on said main surface of said semiconductor substrate; and
a plurality of contact sections formed between said second conductive layer and said plurality of conductive segments. - View Dependent Claims (7)
when the conductive segment of said plurality of conductive segments is formed on one of the two adjacent conductive layers, a center line of said conductive segment relative to an extension direction of said conductive segment is located toward a center line side on which the adjacent conductive layer is extended rather than a center line of the conductive layer connected to said conductive segment through said plurality of contact sections, and when the corresponding conductive segments are formed on the two adjacent conductive layers, respectively, the center line of the conductive segment on one of the adjacent conductive layers relative to the extension direction of the conductive segment is located toward the conductive line side on the other conductive layer rather than the center line of the conductive layer connected to the conductive segment through said plurality of contact sections relative to the extension direction of the conductive segment.
- a first conductive type semiconductor substrate having a main surface; and
Specification