摘要:
A mask pattern and method are described for the recovery of alignment marks on an integrated circuit wafer without the use of additional masks. The mask pattern and method provide means to recover the alignment marks after forming a metal layer on a planarized inter-level dielectric layer. The pattern which conventional methods have placed on a separate mask is formed in the end regions of a mask used for forming a pattern on the active region of the wafer. In order to fit the pattern in the end regions of the mask the pattern is divided into two parts. When the pattern is used to expose a layer of photoresist two exposure steps are used.
摘要:
Described is a novel method for the formation of topological features during the processing of a semiconductor wafer into integrated circuit devices. The present invention is most useful for those processes used to form advanced multilevel ultra-large scale integrated circuits where global planarization techniques, such as chemical mechanical polishing, is used. The present invention is applicable to all processes used to form modem high density, multilevel integrated circuits and without respect of the number of layers formed or materials used. In the present invention, a substrate is a semiconductor wafer or portion thereof, and is the material on which the described processes alter and the layers are formed.
摘要:
Described is a novel method for the formation of topological features during the processing of a semiconductor wafer into integrated circuit devices. The present invention is most useful for those processes used to form advanced multilevel ultra-large scale integrated circuits where global planarization techniques, such as chemical mechanical polishing, is used. The present invention is applicable to all processes used to form modern high density, multilevel integrated circuits and without respect of the number of layers formed or materials used. In the present invention, a substrate is a semiconductor wafer or portion thereof, and is the material on which the described processes alter and the layers are formed.
摘要:
A method for forming alignment marks are disclosed for performing photoalignment after chemical-mechanical polishing (CMP). A trench is first formed in a silicon substrate and then alignment marks are formed at the bottom of the trench. The aspect ratio of the trench is selected to be so low that the dishing of the CMP pad can be prevented from reaching into the trench to damage the alignment marks therein. A trench structure is also provided whereby the alignment marks can be protected from the abrasive action of the CMP. Steps subsequent to the CMP can therefore proceed unimpeded with the presence of undamaged alignment marks.
摘要:
A mask pattern and method are described for the recovery of alignment marks on an integrated circuit wafer without the use of additional masks. The mask pattern and method provide means to recover the alignment marks after forming a metal layer on a planarized inter-level dielectric layer. The pattern which conventional methods have placed on a separate mask is formed in the end regions of a mask used for forming a pattern on the active region of the wafer. In order to fit the pattern in the end regions of the mask the pattern is divided into two parts. When the pattern is used to expose a layer of photoresist two exposure steps are used.
摘要:
The present invention provides a method of removing an shallow trench isolation (STI) oxide layer 38 from over alignment marks 30. The invention has two major features: (1) A STI photoresist mask 42A that is used to etch Alignment area trenches 34 around alignment marks 30 and to etch STI trenches 35 in device areas 14; and (2) A "reverse tone" STI photoresist mask 42B that is used to remove the isolation oxide 38 from over the alignment marks 30 and from over the active areas 37. The method begins by providing a substrate 10 having a device area 14, an alignment mark trench area 16; and an alignment mark area 18. A polish stop layer 20 22 is formed over the substrate 10. A trench isolation resist layer 42A is used to etch alignment area trenches 34 around the alignment marks 34 and STI trenches 35 in the device areas. A dielectric layer 38 is formed over the substrate. In a key step, the reverse tone trench isolation resist layer 42B is used to etch the first dielectric layer 38 from over the alignment marks 30 and the Active areas 27. Next, the remaining first dielectric layer 38 is chemical-mechanical polished thereby planarizing the first dielectric layer 38.
摘要:
A method is disclosed for forming alignment marks at the outer perimeter of wafers where they are not susceptible to much damage during chemical-mechanical polishing (CMP) process. Complete protection is provided by recessing the alignment mark into the substrate by etching. Recess etching is accomplished at the same time the isolation trenches are followed to delineate device areas. Thus, alignment marks are provided with a protective recess without extra steps. Furthermore, by forming alignment marks at the outer perimeter of the wafer, productivity is improved by providing maximum usage of wafer area for integrated circuits.
摘要:
A method of preserving alignment marks in integrated circuit substrates using shallow trench isolation after planarization using chemical mechanical polishing. A layer of silicon nitride is formed on the substrate and openings defining alignment trenches and isolation trenches are etched in the silicon nitride layer. Alignment trenches are formed in alignment regions of the substrate and isolation trenches are formed in the active region of the substrate during the same process step using the openings in the silicon nitride layer as a mask. A layer of dielectric is then deposited on the substrate filling the alignment trenches and the isolation trenches. The dielectric is then etched away from the alignment trenches and the substrate is planarized. After a layer of conducting material is deposited on the wafer the alignment trenches are preserved.
摘要:
A FinFET device may include a dummy FinFET structure laterally adjacent an active FinFET structure to reduce stress imbalance and the effects of stress imbalance on the active FinFET structure. The FinFET device comprises an active FinFET comprising a plurality of semiconductor fins, and a dummy FinFET comprising a plurality of semiconductor fins. The active FinFET and the dummy FinFET are laterally spaced from each other by a spacing that is related to the fin pitch of the active FinFET.
摘要:
An interconnect structure includes a first trench and a second trench. The second trench is wider than the first trench. Both trenches are lined with a diffusion barrier layer, and a first conductive layer is deposited over the diffusion barrier layer. A metal cap layer is deposited over the first conductive layer. A second conductive layer is deposited over the metal cap layer in the second trench.