Patent ID: 6180457
Filing Date: 2001-01-30
Classification: H01L

Abstract:
A method of manufacturing a non-volatile memory device, comprising:forming an isolation layer on a semiconductor substrate including a cell array part and a peripheral circuit part;forming a floating gate pattern exposing the semiconductor substrate in the peripheral circuit part with a tunnel oxide layer interposed between the floating gate pattern and the semiconductor substrate in the cell array part, and an interlayer insulating layer covering the floating gate pattern;forming a control gate layer which covers the interlayer insulating layer and the semiconductor substrate in the peripheral circuit part while interposing a gate oxide layer between the control gate layer and the semiconductor substrate;protecting the peripheral circuit part by leaving a part of the control gate layer covering the peripheral circuit part, and forming a control gate, an interlayer insulating layer pattern, and a floating gate in the cell array part by sequentially patterning the control gate layer, the interlayer insulating layer, and the floating gate pattern in the cell array part;forming a first low-concentration impurity layer by first ion-implantation of arsenic into the semiconductor substrate adjacent to the floating gate using the control gate and the control gate layer covering the peripheral circuit part as an ion-implantation mask;forming a gate in the peripheral circuit part by patterning the control gate layer in the peripheral circuit part with a photo resist pattern shielding the cell array part;forming a second low-concentration impurity layer by second ion-implantation of phosphorous into the semiconductor substrate adjacent to the gate using the photo resist pattern as an ion-implantation mask;forming a spacer exposing the semiconductor substrate by covering the side walls of the floating gate and the control gate in the cell array part and covering the sidewall of the gate in the peripheral circuit part; andforming a third high-concentration impurity layer overlapping the first and second impurity layers by third ion-implantation of arsenic into the exposed semiconductor substrate using the spacer as an ion-implantation mask.