Abstract: The present disclosure relates to an embedded flash memory cell having a common source oxide layer with a substantially flat top surface, disposed between a common source region and a common erase gate, and a method of formation. In some embodiments, the embedded flash memory cell has a semiconductor substrate with a common source region separated from a first drain region by a first channel region and separated from a second drain region by a second channel region. A high-quality common source oxide layer is formed by an in-situ steam generation (ISSG) process at a location overlying the common source region. First and second floating gate are disposed over the first and second channel regions on opposing sides of a common erase gate having a substantially flat bottom surface abutting a substantially flat top surface of the common source oxide layer.

Abstract: The present disclosure relates to an embedded flash memory cell having a common source oxide layer with a substantially flat top surface, disposed between a common source region and a common erase gate, and a method of formation. In some embodiments, the embedded flash memory cell has a semiconductor substrate with a common source region separated from a first drain region by a first channel region and separated from a second drain region by a second channel region. A high-quality common source oxide layer is formed by an in-situ steam generation (ISSG) process at a location overlying the common source region. First and second floating gate are disposed over the first and second channel regions on opposing sides of a common erase gate having a substantially flat bottom surface abutting a substantially flat top surface of the common source oxide layer.

Abstract: A CMP apparatus and process sequence. The CMP apparatus includes multiple polishing pads or belts and an in-line metrology tool which is interposed between adjacent polishing pads or belts in the apparatus. A material layer on each of multiple wafers is successively polished on the polishing pads or belts. The metrology tool is used to measure the thickness of a material layer being polished on each of successive wafers in a lot prior to the final polishing step, in order to precisely polish the layer to a desired target thickness at the final polishing step. This renders unnecessary an additional process cycle to polish the layer on each wafer to the desired target thickness. The metrology tool may be modularized as a unit with the polishing pads or belts.

Abstract: A CMP apparatus and process sequence. The CMP apparatus includes multiple polishing pads or belts and an in-line metrology tool which is interposed between adjacent polishing pads or belts in the apparatus. A material layer on each of multiple wafers is successively polished on the polishing pads or belts. The metrology tool is used to measure the thickness of a material layer being polished on each of successive wafers in a lot prior to the final polishing step, in order to precisely polish the layer to a desired target thickness at the final polishing step. This renders unnecessary an additional process cycle to polish the layer on each wafer to the desired target thickness. The metrology tool may be modularized as a unit with the polishing pads or belts.

Abstract: A CMP apparatus and process sequence. The CMP apparatus includes multiple polishing pads or belts and an in-line metrology tool which is interposed between adjacent polishing pads or belts in the apparatus. A material layer on each of multiple wafers is successively polished on the polishing pads or belts. The metrology tool is used to measure the thickness of a material layer being polished on each of successive wafers in a lot prior to the final polishing step, in order to precisely polish the layer to a desired target thickness at the final polishing step. This renders unnecessary an additional process cycle to polish the layer on each wafer to the desired target thickness. The metrology tool may be modularized as a unit with the polishing pads or belts.

Abstract: A CMP apparatus and process sequence. The CMP apparatus includes multiple polishing pads or belts and an in-line metrology tool which is interposed between adjacent polishing pads or belts in the apparatus. A material layer on each of multiple wafers is successively polished on the polishing pads or belts. The metrology tool is used to measure the thickness of a material layer being polished on each of successive wafers in a lot prior to the final polishing step, in order to precisely polish the layer to a desired target thickness at the final polishing step. This renders unnecessary an additional process cycle to polish the layer on each wafer to the desired target thickness. The metrology tool may be modularized as a unit with the polishing pads or belts.