Nonvolatile semiconductor memory and method of fabricating the same
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Abstract
A charge storage layer (112) in a gate insulating film of a cell transistor is so formed as not to extend from a channel region of a cell to an element isolation region. Since no electric charge moves from the charge storage layer (112) on the channel onto the element isolation region, the charge retention characteristics improves. Unlike a gate insulating film of a cell transistor, a gate insulating film of a selection transistor is formed without including the charge storage layer (112). This stabilizes read operation because the threshold value of the transistor does not vary. Of peripheral transistors, a thick gate oxide film is formed for a transistor requiring a high-breakdown-voltage gate oxide film, and a thin gate oxide film is formed for a transistor requiring high drivability. This realizes a high operating speed.
26 Citations
21 Claims
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1-6. -6. (canceled)
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7. A method of fabricating a nonvolatile semiconductor memory having a cell array including a cell transistor and a selection transistor, comprising the steps of:
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forming a first insulating film including a charge storage layer, on a surface of a semiconductor substrate, as a gate insulating film of the cell transistor;
forming a second insulating film not including a charge storage layer, on the surface of the semiconductor substrate, as a gate insulating film of the selection transistor; and
performing element isolation by forming a trench between an element region in which the cell transistor is to be formed and an element region in which the selection transistor is to be formed, wherein the charge storage layer in the cell transistor does not exist in an element isolation region and exists only below said first gate electrode in the element region. - View Dependent Claims (8, 9, 10, 11)
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12. A method of fabricating a nonvolatile semiconductor memory having a cell array including a cell transistor and a selection transistor, and a peripheral circuit including a peripheral transistor, comprising the steps of:
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forming a first gate insulating film including a charge storage layer, on a surface of a semiconductor substrate, as a gate insulating film of the cell transistor;
forming a second gate insulating film not including a charge storage layer, on the surface of the semiconductor substrate, as a gate insulating film of the selection transistor;
forming a third gate insulating film not including a charge storage layer, on the surface of the semiconductor substrate, as a gate insulating film of the peripheral transistor; and
performing element isolation by forming trenches between an element region in which the cell transistor is to be formed, an element region in which the selection transistor is to be formed, and an element region in which the peripheral transistor is to be formed, wherein the step of forming the second gate insulating film and the step of forming the third gate insulating film are simultaneously performed, and the charge storage layer in the cell transistor does not exist in an element isolation region and exists only below said first gate electrode in the element region. - View Dependent Claims (13, 14, 15, 16)
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17. A method of fabricating a nonvolatile semiconductor memory having a cell array including a cell transistor and a selection transistor, and a peripheral circuit including first and second peripheral transistors, comprising the steps of:
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forming a first gate insulating film including a charge storage layer, on a surface of a semiconductor substrate, as a gate insulating film of the cell transistor;
forming a second gate insulating film not including a charge storage layer, on the surface of the semiconductor substrate, as a gate insulating film of the selection transistor;
forming a third gate insulating film not including a charge storage layer, on the surface of the semiconductor substrate, as a gate insulating film of the first peripheral transistor;
forming a fourth gate insulating film not including a charge storage layer and thinner than the third gate insulating film, on the surface of the semiconductor substrate, as a gate insulating film of the second peripheral transistor; and
performing element isolation by forming trenches between an element region in which the cell transistor is to be formed, an element region in which the selection transistor is to be formed, and an element region in which the first and second peripheral transistors are to be formed, wherein the step of forming the second gate insulating film and the step of forming the third gate insulating film are simultaneously performed, and the charge storage layer in the cell transistor does not exist in an element isolation region and exists only below said first gate electrode in the element region. - View Dependent Claims (18, 19, 20, 21)
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Specification