Patent ID: 7001815
Filing Date: 2006-02-21
Classification: H01L

Abstract:
1. A method of manufacturing a semiconductor device comprising: providing a semiconductor substrate in which a first region, a second region and a third region are defined; forming a first oxide layer having a relatively thick thickness at the first region compared with the other regions on the entire surface of the substrate; forming a dummy gate material layer on the first oxide layer; patterning the dummy gate material layer and the first oxide layer to respectively form a first pattern of the first oxide layer and a first dummy gate on the substrate of the first region, and to respectively form a second pattern of the first oxide layer and a second dummy gate on the substrate of the second region; forming a gate insulating layer of a second oxide layer and having a first thickness and a gate on the substrate of the third region; ion-implanting low concentration impurities into the substrate; respectively forming spacers on the sidewalls of the first gate and the first and second dummy gates; ion-implanting high concentration impurities into the substrate, to form source and drain regions; forming an intermediate insulating layer respectively exposing the surfaces of the first gate and the first and second dummy gates and having a smooth surface on the entire surface of the substrate; selectively removing the first and the second dummy gates, to form first and second holes respectively exposing the first and second patterns of the first oxide layer; forming a third oxide layer on the surfaces of the first and second holes and the intermediate insulating layer; depositing a gate material layer on the third oxide layer so as to fill the first and second holes; and removing the gate material layer and the third oxide layer so as to expose the surface of the intermediate insulating layer, to form a second gate insulating layer consisting of the third oxide layer and the first pattern of the first oxide layer and having a second thickness being thicker than the first thickness on the substrate of the first region, and to form a third gate insulating layer consisting of the third oxide layer and the second pattern of the first oxide layer and having a third thickness being thicker than the first thickness and being thinner than the second thickness on the substrate of the first region.